Search This Blog

Monday, 1 May 2023

The league of nations: a brief history.

 The league of nations

League of Nations, an organization for international cooperation established on January 10, 1920, at the initiative of the victorious Allied powers at the end of World War I. 

The terrible losses of World War I produced, as years went by and peace seemed no nearer, an ever-growing public demand that some method be found to prevent the renewal of the suffering and destruction which were now seen to be an inescapable part of modern war. So great was the force of this demand that within a few weeks after the opening of the Paris Peace Conference in January 1919, unanimous agreement had been reached on the text of the Covenant of the League of Nations. Although the League was unable to fulfill the hopes of its founders, its creation was an event of decisive importance in the history of international relations. The League was formally disbanded on April 19, 1946; its powers and functions had been transferred to the nascent United Nations.

Origins of the League of Nations

The central, basic idea of the movement was that aggressive war is a crime not only against the immediate victim but against the whole human community. Accordingly it is the right and duty of all states to join in preventing it; if it is certain that they will so act, no aggression is likely to take place. Such affirmations might be found in the writings of philosophers or moralists but had never before emerged onto the plane of practical politics. Statesmen and lawyers alike held and acted on the view that there was no natural or supreme law by which the rights of sovereign states, including that of making war as and when they chose, could be judged or limited. Many of the attributes of the League of Nations were developed from existing institutions or from time-honoured proposals for the reform of previous diplomatic methods. However, the premise of collective security was, for practical purposes, a new concept engendered by the unprecedented pressures of World War I.
                        When the peace conference met, it was generally agreed that its task should include the establishment of a League of Nations capable of ensuring future peace. U.S. Pres. Woodrow Wilson insisted that this should be among the first questions to be dealt with by the conference. The work proceeded with far greater speed than that of territorial and military settlement, chiefly because the subject had been exhaustively studied during the war years. Unofficial societies in the United States, Great Britain, France, and some neutral countries had drawn up many plans and proposals, and in doing so they in turn had availed themselves of the efforts of earlier thinkers.
                     Over many years lawyers had worked out plans for the settlement of disputes between states by legal means or, failing these, by third-party arbitration, and the Hague conferences of 1899 and 1907 had held long debates on these subjects. The results had been unimpressive; the 1907 conference tried in vain to set up an international court, and though many arbitration treaties were signed between individual states, they all contained reservations which precluded their application in more dangerous disputes. However, though the diplomatists thus kept the free hand as long as possible, the general principle of arbitration—which in popular language included juridical settlement and also settlement through mediation—had become widely accepted by public opinion and was embodied as a matter of course in the Covenant.
              Another 19th-century development which had influenced the plan makers was the growth of international bureaus, such as the Universal Postal Union, the International Institute of Agriculture, and numerous others, set up to deal with particular fields of work in which international cooperation was plainly essential. They had no political function or influence, but within their very narrow limits they worked efficiently. It was concluded that wider fields of social and economic life, in which each passing year made international cooperation more and more necessary, might with advantage be entrusted to similar international administrative institutions. Such ideas were strengthened by the fact that, during the war, joint Allied commissions controlling trade, shipping, and procurement of raw materials had gradually developed into powerful and effective administrative bodies. Planners questioned whether these entities, admitting first the neutrals and later the enemy states into their councils, could become worldwide centres of cooperation in their respective fields
           Other lessons of the war concerned the problems of armaments on the one hand and of diplomacy on the other. It was widely believed that the enormous increase in armaments undertaken by the great powers of Europe during the immediate prewar period had been not only a consequence, but also in itself a cause, of tension, hostility, and finally war. The naval arms race between the United Kingdom and Germany was an especially obvious manifestation of this phenomenon. Equally strong was the belief that “secret diplomacy,” that is, the existence, under secret treaty, of commitments for reciprocal diplomatic or military support, had enabled statesmen and generals to run risks which public opinion would never have countenanced had they been known
             These general propositions—collective security, arbitration, economic and social cooperation, reduction of armaments, and open diplomacy—inspired in various degrees the plans drawn up during the war. It was urged from the first that they could become effective only through the creation of a great international organization charged with the duty of applying them and invested with the powers necessary to that end. Already in spring 1915 the name “League of Nations” was in general use among the small groups which were discussing the future organization of peace. Their ideas, encouraged by statesmen such as former Pres. William H. Taft in the United States and Sir Edward Grey and Lord Robert Cecil in Great Britain, gradually became known and supported. The League to Enforce Peace in the United States and the League of Nations societies in Britain acted as centres of discussion. In the presidential election of 1916 both parties advocated U.S. membership in a future league. A few months later the United States was a belligerent, and Wilson, entering on his second term, became, by right both of his personality and of his position as leader of the greatest world power, the chief spokesman of the Allied coalition. In January 1918, in the historic Fourteen Points in which he summed up U.S. war aims, he called for the formation of “a general association of nations…affording mutual guarantees of political independence and territorial integrity to great and small States alike.” The Fourteen Points were in due course accepted by all the Allies as an authentic statement of their war aims also. Thus what had seemed hardly more than a utopian hope was transmuted in a few months into the formal and official purpose of the soon-to-be-victorious Allies.

Meanwhile, both the British and French governments had appointed special committees to draw up plans for the new organization, and their reports were transmitted to Washington, where Wilson and his confidential adviser Edward M. House were drafting proposals in their turn. A further contribution of great importance was made by South African statesman Jan Smuts, who published in December 1918 The League of Nations: A Practical Suggestion. Smuts declared that the League must not be a mere diplomatic defense against war but “a great organ of the ordinary peaceful life of civilisation…woven into the very texture of our political system,” and that in the long run its power to prevent war would depend upon the extent of its action in peace. To many of his contemporaries, this was a new vision of the real nature of an effective League of Nations
                

The Covenant

With  the ground thus well prepared, and under Wilson’s resolute leadership, the conference was able to draw up, in a few days of intensive committee work, a document which it called the Covenant of the League of Nations. This text was published, as a draft, on February 14, 1919. It was subjected to various criticisms, especially in the United States, where Wilson’s star was already on the decline, and also by the European neutrals, who had had no official share in the work. In general, however, it was well received. Although the first great impulse had already weakened and Allied unity had been impaired, a final amended text was adopted on April 28, 1919, by the unanimous decision of the conference. The Covenant was a short and concise document of 26 articles. The first seven articles established the constitutional basis of the new system. Article 1 defined the League’s original members, which consisted of all the Allied signatories of the peace treaties and those 13 countries which had been neutral in the war, if the latter chose to join without reservation. Others could be admitted by a two-thirds majority of the Assembly, and any member could withdraw after giving two years’ 

Articles 2–5 created the directing organs of the League: an Assembly composed of representatives of all members and a Council composed of representatives of the United States, Great Britain, France, Italy, and Japan as permanent members, with four others elected by the Assembly. Articles 6 and 7 created a permanent Secretariat, provided for the expenses of the League, and named Geneva as its headquarters. Articles 8 and 9 dealt with armaments. All members undertook to reduce their armaments to the lowest possible level, to suppress the “evil effects” of the private manufacture of arms, and to exchange full information as to their existing armaments and their programs for the future. A permanent commission was provided to advise the Council on all military, naval, and air questions. Articles 10–17 embodied what may be called the central and basic idea of the League: collective security, together with the various procedures for peaceful settlement of disputes. Each member undertook (Article 10) to respect the integrity and independence of all the others and to join in preserving them against aggression. Article 11 declared that any war or threat of war was a matter of concern to all members, whether directly affected or not; every member had the right to demand that the question be considered by the Council and, if necessary, to insist on an immediate meeting. By Article 12, all bound themselves to submit all serious disputes to peaceful settlement or to inquiry by the Council and in no case to resort to war until these procedures had had time to lead to a settlement. Even then, if no settlement were reached, they promised to wait a further three months before going to war. The various methods of settlement—arbitration, legal procedure, or action by the Council or the Assembly—were then set out in some detail (Articles 13–15), and these provisions included the establishment of a permanent international court. Under Article 16 all members promised to join in common action against any other which made war in violation of the Covenant. This action was to take in all cases the form of economic sanctions as its primary coercive mechanism and, if this were not enough, of military intervention. This article also empowered the Council to expel a member which violated the Covenant. Article 17 extended the system so as to provide protection against, and in certain conditions for, nonmember states.
             Article 18 was designed to meet the demand for open diplomacy. It required that all future treaties be registered with, and published by, the Secretariat. Article 19 empowered the Assembly to propose changes in existing treaties or situations which might be a danger to peace. By Article 20 all members agreed that any treaty inconsistent with the Covenant was automatically abrogated and undertook not to enter into any such engagement in the future
                        Article 22 declared that the Covenant did not affect the validity of the Monroe Doctrine. Article 22 established the mandates system. Articles 23 and 24 corresponded to the proposals for worldwide economic and social cooperation under the authority of the League. Members undertook to act together in such matters as transport and communications, commercial relations, health, and supervision of the international arms trade and to bring existing international agencies, such as the Universal Postal Union, under the direction of the League. They agreed also to set up an International Labour Organization in order to “secure and maintain fair and humane conditions of labour.” Article 25 promised support for the Red Cross. Finally, Article 26 defined the procedure for amending the Covenant; an amendment, to be effective, must be ratified by a majority of the members, including all those represented on the Council
                             The Covenant purported to cover each of the main proposals which had emerged during the preparatory period—collective security; arbitration and judicial settlement, including the creation of an international court; international cooperation or control in economic and social affairs; disarmament; and open diplomacy. It did not satisfy extreme pacifists, who rejected any use of force (even to resist aggression), or extreme internationalists, who wished the League to have its own military forces and to impose all its decisions by its own political and military authority. In the main the Covenant fully realized the plans made during the war, and in one essential respect, the creation of efficient working institutions, it went much beyond 
                         For the next 20 years the Covenant continued to be, in theory, not only the guide and authority for all the activities of the League, but also the criterion by which liberal opinion in many developed countries judged the conduct of their own and other governments. In consequence, its text was minutely and repeatedly studied, scrutinized, and debated by professors, lawyers, and statesmen. This test it bore, on the whole, very successfully. A few minor problems of interpretation were unearthed, chiefly due to the fact that its English and French texts were equally authentic. In the actual working of the League it never failed to provide both the principles and the methods required by each successive question.

This of course is not to say that its principles were always respected or that its provisions were not capable of improvement. Nevertheless, the Covenant system was much more complete and well planned than might appear from the fact of the various failures and final defeat of the League. Before it even started to function, however, it would receive a blow so severe that it was never possible to apply the system as its founders had intended
                 The Covenant was in its nature an entirely separate instrument to which neutral states could accede even if they objected to other parts of the peace treaties. It was in form a part of these, however, and when its text was finally settled in April 1919, it could only come into force at the same time as the Versailles Treaty as a whole, on January 10, 1920. Meanwhile, in the United States Senate, the leaders of the Republican opposition, by then implacably hostile to Wilson and all his works, had resolved to return to the policy of isolationism. While they did not formally propose the rejection of the Covenant, they put forward a number of reservations which Wilson was certain to refuse
                     For his part, Wilson was convinced that most Americans were in favour of the Versailles Treaty and the League of Nations, and there was ample evidence for his conclusion. Thirty-two state legislatures and 33 governors had gone on record in support of the League. Nevertheless, in response to increasing congressional opposition, Wilson undertook an 8,000-mile (12,900-km) speaking tour to solicit public support in an attempt to compel Congress to follow his lead. The trip across the continental U.S., on which the president gave 37 addresses, took a mighty toll on Wilson’s health, permanently impairing him and virtually removing him from the fight for the League. By the end of September 1919, Wilson was so exhausted that he had to cancel the remaining scheduled speaking engagements
                          In November 1919 U.S. Sen. Henry Cabot Lodge, a Republican from Massachusetts, presented the Senate with a set of reservations to the treaty that would effectively circumscribe U.S. participation in the League. On November 18 Wilson wrote to U.S. Sen. Gilbert Hitchcock of Nebraska, urging loyal Democrats to vote against Lodge’s reservations. The next day, loyal Democrats joined those who were irreconcilably opposed to the treaty to defeat ratification of it with Lodge’s reservations. For the next vote, on the question of ratification without reservations, however, the main bulk of senators changed sides. The irreconcilables again voted against the treaty, but this time they were joined by those, such as Lodge, who opposed an unqualified U.S. commitment. The total of those in favour of the treaty fell short of the two-thirds majority required by the U.S. Constitution for such decisions. In a March 1920 vote, ratification was defeated again in the Senate, and the hope of U.S. membership disappeared, as it proved, forever.

The effect of this event upon the future of the League was, in one sense, decisive, since it ruled out all possibility of collective security as embodied in the Covenant. There was no certainty of a complete economic boycott which, it was confidently expected, would suffice to make even the most aggressive government prefer to settle its disputes by negotiation rather than by armed attack. The other component parts of the system could still function, and did in fact function, though with less effectiveness than if the United States had fully participated therein. The knowledge that the world’s greatest economic power would stand aside from sanctions robbed that part of the Covenant of its main threat for the aggressor and destroyed, in consequence, the confidence that other members could place in it. However, the League was closely interwoven with the fabric of the peace treaties, and there was hope that the Senate’s decision might someday be reversed. Public opinion in many countries would have strongly resisted any proposal to abandon the League. So, in spite of the absence of the United States, the first meeting of the League Council was held immediately after the ratification of the Treaty of Versailles. Thus the League entered on the very active, if not always very successful, existence which ended in fact with the outbreak of World War II in 1939, though its formal demise did not take place until April 1946. 

  Structure of the League of Nations

The League quickly became a large and complex structure. The Assembly and the Council—acting either under the direct terms of the Covenant or on their own initiative—decided the nature, membership, and competence of the rest of the League’s principal organs and institutions, directed their work, and provided their budget. The Assembly consisted of one to three delegates from each member nation, and many countries also sent a large body of substitutes and experts. The makers of the Covenant had expected that the Assembly would meet perhaps every third or fourth year, but at its first session in 1920 it decided to meet every September. Each session opened with a general discussion on the work done during the past year or planned for the next. This discussion often ranged over problems which the speaker considered ought to be dealt with by the members of the League instead of outside it. It then typically settled down to two or three weeks of committee meetings. Since every delegation was represented on each committee, and these groups held their meetings in public, the conclusions reached in committee were usually adopted with no more than a few formal speeches in the plenary Assembly. The Assembly decisions required unanimity among those who voted. Thus, in theory, any member could veto any decision. In practice, such a contingency was exceedingly rare. It became customary for those who disagreed with the proposals of the majority to vote against them in committee, and, having thus put their views on record, to abstain from voting in the Assembly.
                    Except that it usually refrained from discussing political issues that were being dealt with by the Council, the Assembly’s debates covered every part of the activities of the League. A few matters, such as the admission of new members or the revision of obsolete treaties, were specifically reserved to the Assembly, and from the beginning it insisted on being the sole authority in regard to the budget. It showed much zeal for disarmament, on which the smaller powers, who could there make their voice effectively heard, were dissatisfied with the policy of the great powers and of the Council.

The Assembly was, by general consent, the most successful as well as the most original of the many innovations of the League. It was original in its constitutional nature as a worldwide conference meeting to discuss not some special question but any and all questions of international relations. It was still more original in its spirit, since it gave equal rights and opportunities to be heard to all powers, whether great or small, and sought deliberately to follow the open and direct methods of a parliament rather than the formalities of a diplomatic gathering.

The Council was originally intended to consist of five great powers—the United States, Great Britain, France, Italy and Japan—as permanent members, together with four others elected by the Assembly for limited periods. It was expected that Germany and the U.S.S.R. someday might become permanent members and that the nonpermanent membership might be correspondingly increased. However, the United States seat was never occupied, and the number of elected members was increased to six in 1922 and to nine in 1926, so that the intended majority of great powers was never realized.
                              After the first year, when it met almost every month, the Council held three or four regular sessions a year, though it was not until 1923 that it formally decided to meet at fixed dates in March, June, September, and December of each year. It also met in special session when necessary. In the early years, its members were usually represented either by elder statesmen who had withdrawn from active politics, such as Arthur Balfour or Léon Bourgeois, or by professional diplomats. In 1923 the European members began to send their foreign ministers to each meeting, a change which greatly enhanced the authority and importance of the Council. This continued to be the normal practice until the last days of the League.
               The main business of the Council was political. It dealt not only with the major disputes which might endanger peace but with countless small problems arising out of the peace treaties or submitted to it by the states concerned: problems of frontier adjustment; disputes arising from frontier incidents or accusations of wrongs done to minorities; problems concerning particular areas of constant tension, such as Danzig (now Gdańsk) or the Saar territory, where treaty settlements entrusted administrative or arbitral decisions to the council; and reports from committees, such as those dealing with disarmament or with the mandated territories. In any dispute likely to lead to a rupture, the votes of the parties concerned did not count. With this exception, all decisions of substance required unanimity, and all League members concerned in the question under discussion had, for the occasion, the rights of Council membership. Actual cases of veto or deadlock were very few, but without doubt the Council tended, in consequence, toward compromise or delay rather than clear-cut decisions
                   In organizing the Secretariat, Sir Eric James Drummond, the first secretary-general (1919–33), struck out on a completely new path. He and his French and U.S. deputies built up a strictly international institution in which it was understood from the first that all officials were to act independently from their own national authorities. If this ideal was not always realized, it is still true to say that it governed the attitude of the Secretariat as a whole and that the latter was rarely if ever accused of partiality on national grounds. As regards its efficiency, the Secretariat early reached a high standard and maintained it. In spite of predictions to the contrary, officials from many different countries were able to work together with zeal and cordiality, and the Secretariat was as proud of its corporate spirit as any national service could be. Its work, however, and that of the League in general, was throughout hampered by poverty. At each Assembly the League members, especially the richest ones, made devoted efforts to cut down its expenditure to the bone. The average annual budget for the League, the International Labour Organization, and the permanent court combined was less than $5,500,00. This covered not only running costs but also capital expenditure, including the great Palais des Nations, which was completed in 1937. Nevertheless, the opponents of the League were able to establish the legend that it was an expensive and extravagant institution.
                      The Assembly, Council, and Secretariat were the central organs of an extensive structure of auxiliary institutions. These fell into two main categories: those of a legal or political character, set up to assist the League in its duty of preventing tension and settling disputes; and those of a social or economic character, whose advice was often sought in connection with political disputes but whose main function was to organize and enhance international cooperation in social and economic affairs.

The principal organs of the first category were the Permanent Court of International Justice; the Permanent Mandates Commission; the minorities committees of the Council; and the commissions concerned with military affairs and with the problems of disarmament. Of these, the court and the mandates commission were by general consensus highly efficient bodies which rendered valuable service to the League and to peace. The minorities committees were bitterly criticized, as indeed was all the Council’s work on the protection of minorities, on exactly opposite grounds, by the minorities and by the governments concerned. In truth, not a few injustices were redressed, but the Council’s responsibilities in this field were completely disproportionate to its powers.
                In the second category, the most important organs were—besides the International Labour Organization, administratively a part of the League but otherwise autonomous—the Economic and Financial Organization, the Organization for Communications and Transit, the Health Organization, and the Intellectual Cooperation Organization. To these must be added those dealing with more strictly humanitarian affairs: the curtailing of the international drug trade, the protection of women, child welfare, the abolition of slavery, and the refugee problem. Several of these were in themselves complex organizations, comprising regular conferences, a standing committee, and numerous subcommittees for special subjects. These bodies undertook a massive amount of work, whether in the form of general agreements and treaties, of advice and assistance to particular countries or regions, or of consultation and exchange of ideas and methods.

This work formed a continuous, often inconspicuous, background to the political action of the League. Though often frustrated by political realities, it represented in total a great contribution to human welfare. It was done without payment; the organizations’ members, usually eminent experts in their own fields, received nothing beyond their expenses.

Political history

The 20 years of the League’s active existence fell into four periods: (1) 1920–23, a period of growth, during which the League increased its membership and established its machinery but had little concern with the chief political problems of the time; (2) 1924–31, from the beginnings of reconciliation in Europe to the Japanese aggression in Manchuria, a period of relative stability; (3) 1931–36, from the Manchurian war to Benito Mussolini’s victory in Ethiopia and the formation of the Rome-Berlin Axis, a period of conflict during which the League was the main centre of international affairs; and (4) 1936–39, a period of defeat for the League, during which the Covenant was virtually abandoned.

First period (1920–23)

During the first period all the main organs of the League’s working structure were created. All the neutral states invited to accede to the Covenant had done so, and three of the countries defeated in the war, as well as several of those created by the peace treaties, had been admitted, thus enlarging the membership from 42 to 54. While the League was establishing itself as a fairly efficient working institution, it was far indeed from exercising the powerful influence on world affairs which its founders had planned. While the United States remained aloof, the so-called Supreme Council of the victorious powers clung to the responsibility for dealing with the more serious problems. The only important political achievements of the League in this period were the settlement of the Polish-German frontier in Upper Silesia and the rescue of Austria from financial catastrophe. In each case the Council, invited to solve the problem after the Supreme Council had tried and failed, did so by what was essentially a new technique in such matters—an interlocked complex of political and economic dispositions, based on the advice of its technical organizations. The Austrian model was soon followed by League plans for Hungary, Bulgaria, and Greece and also, in great part, by the Dawes Plan for restoring the collapsed economy of Germany. Notably, this last initiative was not effected by the League.
                The climax of discord and disorder in the postwar period was reached in 1923, when the French occupied the Ruhr in order to force the payment of reparations, and Mussolini occupied Corfu in order to force the Greek government to pay compensation for the murder of a group of Italian officers on Greek soil. The Corfu dispute was the first sharp conflict between League members in which the principle of collective security might have been invoked. Some expected that it would spell the end of the League, as Mussolini had gotten his way by methods which plainly violated the Covenant. However, under intense pressure in the Council and Assembly, he was reduced to achieving his ends by trickery rather than by defying the League and was obliged to evacuate Corfu much sooner than he had intended. The event showed that the League, even if unable to enforce swift decisions, was able to make the way of the aggressor difficult and unpleasant.
                 

Second period (1924–31)

The following months produced a notable reversal of the situation, and the League was now to enter upon the second period of its life. New governments in London and Paris set themselves to create better relations with Germany and the U.S.S.R., and both declared that their policy would henceforth be based on the League. The Supreme Council had ceased to function, the system of hasty conferences was abandoned, and for the next 12 years Geneva became the main working centre of international affairs. During the first seven of these, the globe was free from any serious armed conflict; the minor quarrels with which the Council had to deal, though often unpleasant and difficult, usually ended in compromise and did not threaten the stability of the League or the peace of the world.
                         In the reconstruction of Europe, the question of Germany’s admission to the League assumed great importance. Germany demanded it as a symbol of its restoration to equality with other great powers, and admission would enable Germany to share in the general management of international affairs, including those arising from the peace treaties. The proposal to admit Germany to the League was supported by the former neutrals as well as those among the belligerents who had hoped to achieve a new beginning through reconciliation. The latter group also called for the execution without further delay of the Covenant provisions for disarmament. In France, Poland, and other countries which were neighbours of Germany, these sentiments were not absent but were accompanied by deep anxiety lest the military ambitions of the German empire might again become uppermost in the Weimar Republic. Indeed, the attitude of the powerful right-wing parties in Germany gave substance to these fears. Germany’s neighbours maintained that the security provided by the Covenant was inadequate and that disarmament could only be undertaken after they had received guarantees of prompt and effective support in case a new aggression should take place. (German armaments had been drastically cut down by the treaty, but it was believed that Germany was evading these obligations.)
                        Many other League members, including those of the British Commonwealth, considered the Covenant not as inadequate but as the utmost limit of what they could safely promise. They believed also that disarmament would ensure peace and prosperity, and that if this were achieved they could afford to reaffirm and even strengthen the League’s obligations. Thus it became accepted League doctrine that increased security was a necessary condition for disarmament and that general disarmament was a necessary condition of security. This double thesis was embodied by the Assembly of 1923 in a draft treaty of mutual security, which was promptly rejected by all the principal countries except France.
                 In rejecting this treaty, many governments observed that League action in a crisis might often be slowed or even blocked because of disagreement over which of the conflicting states was the aggressor and which the victim. The answer seemed to be that the aggressor was evidently that state which refused to submit the dispute to arbitration or other peaceful settlement. When, therefore, the Assembly of 1924 resumed the effort to reach the combined goals of disarmament and security, it added arbitration as a third component which should make the whole plan workable and complete. From this formula, and from the long studies of earlier assemblies and committees, it drew up what was in effect a treaty of arbitration, mutual security, and disarmament. To show that its purpose was not to replace the Covenant but to reinforce it, the new plan was called the Geneva Protocol. It constituted, on paper, the most complete system of collective security ever formulated at that time, and it was enthusiastically approved by the Assembly. Ten countries, including France, signed it, and others, including Italy and Japan, seemed ready to do so. A change of government in London, and the fears felt by Commonwealth countries lest they find themselves in conflict with the United States, led to its rejection by Great Britain.
                       Further negotiation might well have removed these difficulties, but at this point the German foreign minister, Gustav Stresemann, made a new proposal for calming the reciprocal fears of France and Germany. Stresemann suggested that France, Germany, Britain, and Italy should jointly guarantee the inviolability of the existing Franco-German frontier and also the demilitarization of the Rhineland. After long negotiation, this plan was elaborated (October 1925) into the group of treaties known as the Locarno Pact.
                        The Locarno Pact was interwoven at every point with the institutions of Geneva, and its entry into force was made conditional on Germany’s admission to the League. Stresemann indeed had already been making cautious approaches to the Council on the subject and had received a friendly reply. All members of the League were now strongly in favour of German membership, and a special meeting of the Assembly was held in March 1926 to pass the necessary resolutions. Unexpected difficulties then arose. All agreed that Germany should become a permanent member of the Council, and the fellow signatories of Locarno had promised to support this. Now, however, Spain, Brazil, and Poland demanded the same privilege, and Stresemann justifiably declared that this was contrary to the spirit of the Locarno agreement. The Assembly had to be adjourned, and six months later a compromise was effected. The Assembly created only one permanent seat—that of Germany—but it increased the elected members from six to nine, three of which might, at the end of their three-year period, be reelected for further periods. These semipermanent seats were intended to meet the claims of Spain, Poland, and Brazil. Brazil, however, preferred to withdraw from the League altogether.
                   For the next three years the foreign ministers of France, Great Britain, and Germany (Aristide Briand, Austen Chamberlain, and Stresemann) kept a directing hand upon the activities of the League. Their regular participation three or four times a year gave fresh authority to the council’s meetings. At the same time, the smaller powers felt that their interests were treated as of little importance and that the Locarno group was indifferent, even unfriendly, toward the general development of the League. Still more serious was the Council’s preoccupation with European problems; Latin American and Asian members felt, and in fact were, neglected. The Council’s authority had never been so high, but its activities had never been so limited.
                     Two dangerous disputes—the first between Great Britain and Turkey over the question of whether Mosul and its environs should belong to Turkey or Iraq, the second arising from a frontier fight between Greek and Bulgarian forces—had been settled successfully just before the entry of Germany. Thereafter the Council had to cope with nothing more grave than frequent quarrels—such as those between Poles and Germans—which were bitter enough but did not seem dangerous until the terrible economic depression which struck the world at the end of 1929. In Germany, from then on, mass poverty and unemployment revived old resentments and gave a new impulsion to the Nazi Party and the demands for rearmament and revenge. The other powers, each struggling with its own economic difficulties, had little interest to spare for international affairs.
                Throughout these years, laborious efforts were being made at Geneva to reach an effective agreement on disarmament. In approving the protocol, the Assembly had expected it to be speedily followed by a world disarmament conference. After Locarno, it seemed once more that the road to disarmament was clear. The Council therefore appointed (December 1925) a commission to prepare the way for the conference. Germany, the United States, and the U.S.S.R. agreed to send delegates to this preparatory commission, which for the next five years held many long, difficult, and sometimes stormy meetings. At first, progress was slowed chiefly by disagreements among the victorious powers, but, as the years passed without definite result, the question of German armaments rose more and more into the foreground. The Treaty of Versailles stated that the restrictions it imposed on German armaments were “intended to render possible the initiation of a general limitation.” Stresemann’s own demands, at least in public, were for equality of status based on reduction by the victorious powers, but the alternative—to reach equality by rebuilding Germany’s armed forces—was deeply appealing to the German nation. Stresemann’s death in 1929 and the spectacular advance of the Nazi Party led to a still more complete deadlock. The German demand for rearmament became more threatening. The powers who feared a German attack were the more resolved to keep their superiority in weapons.

When at last the World Disarmament Conference did meet in February 1932, the preparatory work of the commission was neglected, and the question of German equality dominated all others. The German delegation was withdrawn in July 1932 and only returned in December after receiving assurances that in the future convention Germany would possess the same rights as all the other signatories. In the next months Adolf Hitler became master of Germany, and, in the atmosphere of fear and mistrust created by this event, the conference could make no progress. In October 1933 Hitler, finding that the Entente powers had proposed to maintain the restrictions of the peace treaty for another four years, seized the occasion to make a spectacular withdrawal from the conference and from the League. From then on Germany was openly rearming, and all prospects of disarmament disappeared.

Third period (1931–36)

The third period of League history, the period of conflict, opened with the Mukden Incident, a sudden attack made on September 18, 1931, by the Japanese army on the Chinese authorities in Manchuria. This was clearly an act of war in violation of the Covenant. Japan declared at first that the troops would be withdrawn but later (February 1932) created a puppet state of Manchukuo, claiming that this removed any legal ground for League intervention. This was the first major test of the Covenant system, and no more difficult circumstances could be imagined. Many of the smaller members of the League, and League supporters everywhere, called for the strict application of the Covenant and an economic boycott of Japan. The chief Council members were themselves in the grip of economic crisis, however, and the cooperation of the United States and the U.S.S.R. was certain to be refused. Economic sanctions were never seriously envisaged. After long negotiations, in which the United States did give its support, even permitting a U.S. delegate to sit with the Council through one session, a commission of inquiry was appointed. Reaching Manchuria in April 1932, the commission found the new state of Manchukuo already established. Nevertheless, the commission drew up a full report, concluding that Manchuria should be returned to Chinese sovereignty, with various safeguards for the rights and needs of Japan. The conclusions of this report were unanimously adopted by the Assembly (February 1933). Japan rejected them and a month later withdrew from the League.
                  Thus the year 1933 saw the League’s failure to protect China against aggression, the breakdown of the disarmament conference, and the withdrawal of Japan and Germany. It saw also the collapse of another great enterprise, the World Economic Conference of June 1933. From the beginning the League had attached high importance to the work of its economic and financial organization. Its first major conference on the subject (Brussels, June 1920) had indeed preceded the first Assembly. Thereafter it had for several years followed an ascending curve. After taking a great share in restoring some stability to the European currencies, it had turned to the deeper economic problems. The first World Economic Conference, held in 1927, ended in a unanimous report describing the need for a freer and fuller flow of international commerce, the obstacles which impeded it, and the measures needed to achieve it. In the next two years much progress was made toward carrying out its recommendations. All this, however, foundered in the economic storm, as each country sought to protect its own economy by tariffs, quotas, and prohibitions. The plans and conventions drawn up in Geneva, including Briand’s plan for a United States of Europe, were swept away. The conference ended in speedy and almost total failure.
                Nevertheless, the normal activities of the League were neither interrupted nor reduced. The United States was now taking part in most of its work. The Soviet Union, which had obstructed and ridiculed the political work of the League, changed its attitude in 1934, as a result of fear of Germany and Japan. Its demand for admission met with some opposition and much misgiving, but the great majority of members refused to throw back into isolation a great power which now formally undertook to carry out all the obligations of the Covenant. In truth, the U.S.S.R. did give steady support to the League until shortly before the outbreak of World War II. Meanwhile, the admission of Mexico and Ecuador and the return of Argentina (absent since 1920, though it had not formally withdrawn) completed the Latin American membership. The League’s presence in the Middle East and Southwest Asia was extended by the entry of Turkey, Afghanistan, and Iraq. In Europe a dangerous crisis following the assassination of King Alexander of Yugoslavia (October 9, 1934) was settled by the good offices of the Council. Another critical moment, that of the Saar plebiscite (January 13, 1935), gave rise to the formation, for perhaps the first time in history, of a genuine international peacekeeping force—3,300 men from the armies of Great Britain, Italy, the Netherlands, and Sweden—whose presence ensured that the plebiscite would take place without disorder. In South America the Council, though it could not settle the Chaco War between Bolivia and Paraguay (1932–35), was successful in ending hostilities between Colombia and Peru (1934) and accepted responsibility for administering for a time the disputed territory of Leticia.
                         On October 3, 1935, Mussoliniinvaded Ethiopia, after rejecting all efforts to dissuade him from the aggression which he was openly planning. By the following summer he had occupied and annexed the whole country, in spite of the economic sanctions enforced against him in execution of the Covenant. From this defeat the League was not destined to recover. Italy’s fascist government was at first surprised by the League’s prompt action. Under British leadership the members, with only three exceptions, agreed to stop the export of arms and raw materials to Italy, to halt the extension of financial credit to Italy, and to cease all imports from Italian sources. By December the effect of these measures was beginning to be seriously felt, and the League members were about to consider imposing an embargo on oil, which, it seemed, would quickly force Mussolini to retreat from Ethiopia.

Mussolini was saved, and all further sanctions were arrested, by the sudden action of the British and French governments. Without consulting their fellow members, they proposed to Italy and Ethiopia a settlement calculated to give the maximum satisfaction to the invader. Though existing sanctions dragged on for several months, they could not prevent the Italian victory. In May 1936 Italy annexed Ethiopia, and in July the Assembly put an end to sanctions, though it continued to treat Ethiopia as an independent member of the League.

  Fourth period (1936–45) 

In March 1936 Hitler denounced the Locarno Pact. That October Italy and Germany formed what was known as the Rome-Berlin Axis, and they were soon joined by Japan. All three were violently hostile to the League. Among the League’s members, only those such as France, the U.S.S.R., or Czechoslovakia, who were looking everywhere for possible support against German aggression, continued to affirm their belief in collective security. While the U.S. Congress was passing a succession of Neutrality Acts, the majority of League members were declaring that they no longer considered themselves bound by the obligations of the Covenant.
                      Although in this last period of its history the organs of the League continued to meet as before and performed some useful tasks, the main international problems were, as in the first period, dealt with outside Geneva. In the swift succession of crises—the Spanish Civil War, Japan’s invasion of China, the annexations of Austria, Czechoslovakia, and Albania—reference to the League was either a mere formality or simply omitted. When World War II broke out in September 1939, no appeal of any sort was made to Geneva. In December 1939 Finland did petition for assistance against Soviet aggression, and the Assembly organized such help for Finland as it could. The Council declared the exclusion of the U.S.S.R. from the League.

No further meetings of the Council or Assembly took place during the war. Thanks to U.S. and Canadian efforts, the economic and social work of the League was continued on a limited scale, but its political activity was at an end.
                   This occasion could not but be melancholy to all who had believed in the principles of the Covenant, but their regrets concerned past mistakes and misfortunes. In regard to the future, they could still hope that the United Nations would pursue the same aims with better success. The provisions of the Charter were intended to correct and complete what seemed to be the imperfections of the Covenant. It remained true that in its purposes and principles, its institutions and its methods, the new organization followed, in nearly every point, the precedents of the old.
 



                  

The Lord JEHOVAH, Father of science?

 Meyer with NPR’s Alan Campbell: Explaining the Intelligibility of Nature


We’re re-posting some of our favorite interviews with Stephen Meyer in celebration of the new Paperback edition of Return of the God Hypothesis. Did you catch this one? National Public Radio’s Dr. Alan Campbell hosts Stephen Meyer on the Watching America podcast. In his introduction, Campbell sets the stage for their conversation nicely: “How does one explain the reason for the intelligibility of nature? How can one account for the repetitive order found in existence? Some mistakenly assume that such questions must inevitably lead to antagonism between science and faith, but this is not true. Increasingly, what was once known as the God hypothesis is resurging in serious scientific debate.” Go here to listen now.

Sunday, 30 April 2023

Colossians1 and the case for the subordination of the Son to his God.

 Colossians1:15,16KJV"Who is the image of the invisible God,the firstborn of every creature: for by him were all things created,that are in heaven,and that are in earth,visible and invisible,Whether (they be) thrones,or dominions,or principalities, or powers: all things were created by(Dia) him, and for him:"

The trinity doctrine is a brain eating disease. How else can anyone read the above and conclude that it is a reference to an equal of God's and not to his most honored subordinate/representative. Let us list some of the clear indicators of Jesus Christ's subordination to his God found in this passage. Firstly he is the image(Greek eikon) of THE invisible God. There is but one God (as even our trinitarian friends insist they acknowledge) and our Lord is the 'eikon' of this most high God. So this can't refer to Christendom's version of the Father of Jesus who is not the Most high God, indeed he is no kind of God at all but merely a 'divine person who subsist within the one God. here is what some commentators have said about Greek term 'eikon' 

eikṓn) assumes a prototype, of which it not merely resembles, but from which it is drawn" (R. Trench). 1504 (eikṓn) then is more than a "shadow"; rather it is a replication (F. F. Bruce, Hebrews, 226; see also Lightfoot at Col 3:10 and 2:21). 

Thus the image is distinct from the original i.e distinct from the God of whom he is a copy.

Of course the first member or the foremost member of any set remains a member of the set. Hence the utter absurdity of Christendom's apologists' argument that his being the first or the foremost of JEHOVAH'S creatures must mean that he is no creature at all , there is no(and that would be'no' as in none whatsoever) instance anywhere in the scriptures where 'prototokos' is used to refer to one who is not a member of the set of which he is prototokos.

Proverbs8-22JB"YAHWEH created me, first-fruits of his fashioning, before the oldest of his works."

Some point to the fact that all things were created through (Dia) him as a counterpoint to his being numbered among the creation.

But we observe that these don't (can't?) Consistently apply their reasoning for instance :

1Corinthians ch.15:21,22NIV"For since death came through a man, the resurrection of the dead comes also through a man. 22For as in Adam all die, so in Christ all will be made alive." 

No one argues that the fact that All are resurrected through Christ Must of necessity imply that he himself could not have been resurrected.

So we have none of duplicity around the use of prototokos re:Christ relationship with the resurrected. That we do re: his relationship with the creation.

Revelation ch.1:5NIV"and from Jesus Christ, who is the faithful witness, the firstborn from the dead, and the ruler of the kings of the earth."

Of course no one denies that the firstborn in the above quoted scripture is numbered among the resurrected although All will be resurrected through him.

 A word about the preposition "Dia" from which we get the word diameter,here is strong's commentary on same:

A primary preposition denoting the channel of an act; through .

As a for instance:

John ch.1:17NIV"For the law was given through(Dia) Moses; grace and truth came through(Dia) Jesus Christ."

Thus Moses was the channel, and not the source, of JEHOVAH'S Law.

And Christ ,the foretold prophet like Moses was the channel, and not the source, of JEHOVAH'S undeserved kindness and truth.

JEHOVAH'S firstborn is also the the channel of the energy and information that made/makes the creation and the resurrection possible.

By the way the resurrection is essentially a creative act.

Thus an acknowledgment that Christ was resurrected is in effect that he was re-created:

Psalm ch.104:29,30NIV"When you hide your face,

they are terrified;

when you take away their breath,

they die and return to the dust.

30When you send your Spirit,

they are created,

and you renew the face of the ground."

Hence the scriptures equate his re-creation with a Begetting of him 

Acts ch.13:33NIV"he has fulfilled for us, their children, by raising up Jesus. As it is written in the second Psalm:

“ ‘You are my son;

today I have become your father."

So if his re-creation in time can be regarded as Begetting there is no legitimate objection to regarding his creation in time as a Begetting. Whether All things are created through(Dia) him or not.








The problem with invoking the cosmos to explain the cosmos.

 Physicist Eric Hedin: Cosmology Points to Cosmic Design


On a classic episode of ID the Future, host Eric Anderson continues his conversation with physicist and Canceled Science author Eric Hedin. Here Hedin argues that the dogmatic rule that natural science should only invoke natural causes has at its heart a logical problem. He and Anderson also review some startling cases of fine-tuning for life and why a “theory of everything” would not solve the fine-tuning problem for atheists but merely move it back to the theory of everything itself. Also in the conversation, an accessible summary of how scientists came to realize that the universe had a beginning and wasn’t eternal. And Hedin tackles a theological question: If the universe was designed for life, why did the designer wait nine billion plus years to create the first life? Download the podcast or listen to it here

The fall of the dollar?


Saturday, 29 April 2023

On the overlapping magisteria of numbers and letters.

 Why Mathematics and Literature Point to Intelligent Design


Last October, legendary American author Cormac McCarthy, who wrote Blood Meridian and The Road, released a pair of interconnected novels called The Passenger and Stella Maris. The books arrived after a sixteen-year silence from the desk of McCarthy. The books deal, per usual, with themes of mortality, fate, and the “God question,” and are predictably lyrical, vivid, and dark. But McCarthy plows new ground in these sibling novels. The books are about mathematicians. It’s fiction about math. 

The story revolves around the complex relationship between a brother and sister: Bobby and Alicia Western. Bobby is a deep-sea diver with some history in the field of mathematics, while Alicia is a once-in-a-generation math prodigy. 

Not Estranged, but Akin
After reading these books myself, I marveled at McCarthy’s ability to infuse literature with mathematics. On the surface, fiction and math seem to belong to two obverse fields, forbidden to speak to each other. Somehow, though, he makes it work. He makes the prose sing. But how, and why? Just recently I read an article on the connection between literature and mathematics and have come to realize that McCarthy is not alone in inviting numbers into the literary endeavor. Far from being estranged, fiction and math are deeply akin in more ways than one. 

In a guest essay for the New York Times, British mathematician Sarah Hart describes her joy in discovering a wealth of authors who write about mathematical concepts. She says:  

I finally read “Moby-Dick,” and was delighted to find that it abounds with mathematical metaphors. I realized further it’s not just Herman Melville; Leo Tolstoy writes about calculus, James Joyce about geometry. Fractal structure underlies Michael Crichton’s “Jurassic Park” and algebraic principles govern various forms of poetry. We mathematicians even appear in work by authors as disparate as Arthur Conan Doyle and Chimamanda Ngozi Adichie.

She goes on to lament the artificial boundaries society has built between math and the arts. Despite opting for a career in mathematics, Hart grew up unapologetically loving the written word, too, particularly the imaginative works of C. S. Lewis and J. R. R. Tolkien. She notes that historically, the “trivium” and “quadrivium” included both fields of study and together comprise what we commonly regard as the liberal arts. Even more interestingly, however, are her convictions about what both math and literature speak to. She continues:

There is a deeper reason we find mathematics at the heart of literature. The universe is full of underlying structure, pattern and regularity, and mathematics is the best tool we have for understanding it — that’s why mathematics is often called the language of the universe, and why it is so vital to science.

With her emphasis on structure, pattern, etc., Hart’s word choices in this paragraph suggest to me thoughts of, dare I say, intelligent design. I have no idea what her view might be about ID. But when a professional mathematician’s writing seems to evoke the complex design (my word, not hers) in our universe, that is quite illuminating. She goes on to relate her thoughts to literature:

Good mathematics, like good writing, involves an inherent appreciation of structure, rhythm and pattern. That feeling we get when we read a great novel or a perfect sonnet — that here is a beautiful thing, with all the component parts fitting together perfectly in a harmonious whole — is the same feeling a mathematician experiences when reading a beautiful proof.

Celebrating Brokenness

It probably isn’t coincidental that appreciation for harmony, style, and beauty has significantly diminished in the age of materialism. If Hart’s view of a universe brimming with structure and order is an illusion, as materialistic thinking insists, then it makes sense that literature, film, and visual arts will reflect a sense of futility, despair, and meaninglessness. A friend of mine who is a visual artist describes the current ethos of the art world as a “celebration of brokenness.” Under the spell of materialism, artists and writers can forget their important calling to elucidate and contemplate the beauty, meaning, and design in the world around them. 

Perhaps today’s novelist should pick up a copy of Euclid alongside Hemingway and rediscover what is beautiful and orderly in the everyday world. As Hart notes:

Great literature and great mathematics satisfy the same deep yearning in us: for beauty, for truth, for understanding. As the pioneering Russian mathematician Sofia Kovalevskaya wrote: “It is impossible to be a mathematician without being a poet in [one’s] soul … the poet must see what others do not see, must see more deeply …. And the mathematician must do the same.”

Hart is an author of a book that goes deeper into this matter, Once Upon a Prime: The Wondrous Connections Between Mathematics and Literature.

Politics poisons everything the board game?


Friday, 28 April 2023

The fossil record gives further reason to doubt Darwin.

 Fossil Friday: The Explosive Origin of Mosasaurs in the Cretaceous


This fossil Friday features the mosasaur Plesioplatecarpus planifroms from the Late Cretaceous of North America. Mosasaurs were large carnivorous marine reptiles with a very elongate body, which resembled the mythical sea serpents of ancient sailor legends. Mosasaurs appeared in the Late Cretaceous about 90 million years ago and quickly developed a large diversity of some 42 known genera, filling different ecological niches. The largest species reached enormous lengths of more than 15 meters.

Even though there is an extinct group of shore-dwelling semiaquatic lizards called Aigialosauridae, considered the walking relatives of Mosasaurs, they are of about equal Late Cretacaous age. There are no putative ancestors of mosasaurs known prior to the Late Cretaceous. This leaves only a very short window of time for the marine adaptations of mosasaurs to evolve, which creates yet another of the notorious waiting-time problems for the required genetic changes to originate and spread in an ancestral population.

Substantial Genetic Changes Imply New Coding

These genetic changes must have been substantial as it was not enough to just grow in length and reduce the limbs to flippers to make a mosasaur. They also developed biological novelties such as shark-like flukes, which implies a different mode of swimming from that of lizards that just undulate their tail. But there is more: well-preserved fossils show that mosasaurs shared a unique aquatic adaptation with modern whales, that is absent in terrestrial vertebrates (e.g., the possibly related monitor lizards) and thus also absent in the assumed mosasaur ancestors: their paired bronchi leading to the lungs run parallel to each other instead of splitting from a common tracheal tube (Lindgren et al. 2010). 

Such substantial changes of the internal organs and physiology cannot be explained with simple mutations but required significant new genetic coding. The math of population genetics precludes a Darwinian origin of these new genes in such a short time. But evolutionary biologists generally don‘t bother about the mathematical feasibility of their fancy just-so stories.

More on why we should welcome our AI overlords

 <iframe width="932" height="524" src="https://www.youtube.com/embed/C_78DM8fG6E?list=TLPQMjgwNDIwMjNUGO5MMr1m4Q" title="The Inside Story of ChatGPT’s Astonishing Potential | Greg Brockman | TED" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share" allowfullscreen></iframe>

The apostle John and his Lord Corrected per Trinitarian logic.

John ch.4:12NIV"No one has ever seen God; but if we love one another, God lives in us and his love is made complete in us."

Well that can't be true 

1John ch.1:1NIV"That which was from the beginning, which we have heard, which we have seen with our eyes, which we have looked at and our hands have touched—this we proclaim concerning the Word of life. 2The life appeared; we have seen it and testify to it, and we proclaim to you the eternal life, which was with the Father and has appeared to us. "

Our brother John and his fellow apostles were Eyewitnesses of the risen Christ i.e the posthuman /superhuman Christ ,who our Trinitarian and Modalists interlocutors insists is the most high God.

Thus John and the Christ who inspired his statements must be mistaken, happens to best of us.

Revelation ch.3:12NIV"The one who is victorious I will make a pillar in the temple of my God. Never again will they leave it. I will write on them the name of my God and the name of the city of my God, the new Jerusalem, which is coming down out of heaven from my God; and I will also write on them my new name."

But the most high worships no one as He is on no one's debt 

Job ch.41:11NIV"Who has given me anything that I need to pay back? Everything under heaven is mine."

Only those in debt to JEHOVAH owe him worship. 

Revelation ch.4:11NIV"“You are worthy, our Lord and God,

to receive glory and honor and power,

for you created all things,

and by your will they were created

and have their being.”

Giving devotion to those not entitled to it is idolatry not worship.

So once again as per Trinitarian logic we must correct Jesus Christ and his apostle.




 

A journey to inner space.


Thursday, 27 April 2023

Another clash of titans.


On that other time Darwin doubted.

 Stephen Meyer on Darwin’s Other Doubt

thronePhoto: Charles Darwin, enthroned, by Elliott Brown from Birmingham, United Kingdom [CC BY-SA 2.0], via Wikimedia Commons.
On a new episode of ID the Future, Oxford University’s John Lennox, Lehigh University’s Michael Behe, and Darwin’s Doubt author Stephen Meyer continue a probing conversation with host Peter Robinson about what they see as the growing evidence for intelligent design and the scientific and philosophical problems with Darwinian materialism. In this second half of their discussion, the foursome touch on everything from the genetic code and molecular biological machines to design reasoning, the history and philosophy of science, and what Meyer refers to as “Darwin’s other doubt.” Catch the many fascinating twists and turns in their conversation. Download the podcast or listen to it here

The bare bones case for design.

 Here Is What We Mean by Intelligent Design (And What We Don’t)


Intelligent design (ID) as a theory is widely misunderstood — and that is one fact that motivated me along with my co-authors in writing the new book that I edited, God’s Grandeur: The Catholic Case for Intelligent Design. Of course, Catholics are far from alone in misunderstanding ID. The problem stems largely from the fact that there is a lot of misinformation that has been advanced about ID by both critics and confused or underinformed commentators. People hear various reports about what ID is from sources such as news outlets, public commentary, social media, and finally, science journals and books. Anyone is free to write about ID, as they should be, whether they know what they are talking about or not. Often, they do not. There is no gate keeper. And some of these people have agendas against ID and may misrepresent ID deliberately. So it goes in a debate about ideas.

While all ID proponents agree that certain features of nature are best explained by an intelligent cause, on many side issues ID proponents may have different points of view, with different assumptions. For example, ID makes no claim about universal common descent. Some ID supporters agree with universal common descent, but many ID supporters argue against the idea that all life shares a common ancestor. There are also different views about the ways in which design may be instantiated, and the degree to which natural processes are involved. These different views are not necessarily a sign of something bad — in fact to a large extent they reflect a healthy diversity of models that exist and are being discussed, tested, and refined. Scientists come into it from different backgrounds, and their opinions about how things work may change as they learn more. To add to the mix, engineers, computer scientists, and mathematicians are involved, bringing their own contributions which are different from those of biologists. ID is multidisciplinary and stronger because of that. All have their part to play.

(Of course, the theory of evolution is also in flux, with debates about what portion of the genome is functional, the role of epigenetics, and more. It’s in the nature of scientists to disagree.) 

Science Through Hearsay

Thus, most science consumers have heard about intelligent design through hearsay, from scientists and others who likely suffer from misconceptions, or are narrowly focused. I have seen Internet debates about whether random mutation can create new information. The debaters often talk at cross purposes, with different meanings of information being the chief problem. Do we mean a new sequence, or a new functional sequence? What do we mean by functional? Do we mean something new, some new action, or do we mean some new action that is beneficial to the organism? 

Lastly, few of our opponents have read ID books. Don’t get me wrong, we have intelligent and fair interlocuters who are knowledgeable about ID, have read our books, and disagree. But opponents, when they read our books, have been known to change their minds. Paleontologist Günter Bechly, one of the contributors to God’s Grandeur, comes to mind.

In case you wondered, in the book we talk about God as the designer because when scientific arguments are integrated with philosophical ones, as they are in God’s Grandeur, the scope of the design in life and the cosmos, extending to the evidence of purposeful fine-tuning before the instant of the Big Bang, clearly points to a transcendent intelligence as the designer.

What Intelligent Design Is
Therefore, one of the first things we needed to do in God’s Grandeur was establish what we meant by intelligent design, and what we didn’t mean. The introduction to the book was written by Logan Gage, a professor of philosophy at Franciscan University. He lays it out in his typical lucid prose. I have set some crucial points from that chapter in bold for emphasis

Intelligent design (ID) proponents typically define intelligent design as the view that certain features of the universe and of living things are best explained by an intelligent cause rather than an undirected process. Note that this doesn’t mean that no evolution has occurred, or that natural processes and forces don’t have their place. It is rather the minimal claim that it’s not natural processes and forces all the way down — a claim to which we Catholics are dogmatically committed, believing as we do that all things originate in God.

Design proponents have made arguments for real rather than apparent design at different levels. For instance, they’ve argued that the beginning of the universe requires an intelligent cause (William Lane Craig and James Sinclair), that the laws of physics are designed (Robin Collins), that our planet is uniquely designed (Guillermo Gonzalez and Jay W. Richards), that chemistry as we know it is designed for life (Michael Denton; Benjamin Wiker and Jonathan Witt), that the building blocks of living things cannot be found by blind searches but must be designed (Douglas Axe), that the first living creature and the fossil record give evidence of design (Stephen Meyer), and that both macro- and micro-features of living things give evidence of intelligent design (Michael Denton; Michael Behe).

Note three quick things about these arguments. First, contrary to ste­reotypes, these arguments are not “god-of-the-gaps” arguments. None of these arguments claims, “I don’t know what caused this, so God musta done it.” Rather, the standard mode of argumentation for design proponents is an inference to the best explanation — a common form of reasoning in general and in the historical sciences (like evolutionary biology) in particular. They argue that there are positive signs of intentional design in nature and that non-intentional explanations are weak by comparison. This is highly consonant with the Catholic [and Christian] Faith. The Scriptures (e.g., Ps. 19 and Rom. 1), the Church Fathers (e.g., St. Gregory of Nazianzen), and the councils (e.g., Vatican I) all declare that God’s handiwork in nature is detectable by human reason and not just by faith.

Second, detecting design does not entail that we have detected divine “intervention” in nature. Design can be detected whether or not there was any direct action. One can tell that a field of corn was intentionally planted even if intermediate causes such as drones were used to plant the seeds. Similarly, design arguments need not imply unmediated divine action….

Third, these arguments have clear theological implications, but ID proponents attempt to stick to the publicly available scientific evidence and do not argue from religious texts. Most intelligent design proponents are Christians,but an argument that the designer is the Christian God would require more than just the scientific evidence. ID proponentsare not being coy about their belief in God but being careful about their conclusions. Aquinas does the same thing.

What Intelligent Design Isn’t

Many Christian intellectuals seem to think that ID theorists believe either God intervenes directly, or else natural processes are entirely responsible for what we see in nature. This is a false dilemma. God Himself is the one who made the natural laws, and He is free to use natural processes as instruments of His will (as secondary causes). As Professor Gage writes

ID does not imply a zero-sum game where if God is responsible for something then He must act directly, and nature cannot be a true cause as well. Rather, the minimal claim is only that some features of our world give very good evidence of having been intelligently designed somewhere in their origin story.  What ID denies is that every feature of nature is the product of natural forces all the way down.

Indeed, every Christian — and every traditional theist — should acknowledge God’s action in the creation of the universe. God had to be involved directly in the beginning at the very least, even if it was just to make the natural laws. However, it must also be pointed out, as Logan Gage writes, that “the view that God only acts in nature through natural laws is not the view of St. Thomas Aquinas or the Church.”13

An Accusation of Interventionism

Other Christians accuse ID of requiring interventionism — the idea that God intervenes in His creation through direct divine action. But ID does not make that claim. ID simply says that we can detect design and its effects, but not necessarily how the design was instantiated. Interventions are possible but not required. Nonetheless, Christianity doesclaim God intervenes in His creation directly. We call these acts miracles, and Christians must acknowledge at least two — the Incarnation and the Resurrection — though many others are described in Scripture as well. And here we have the odd phenomenon of some Christians decrying interventionism, as if it never, ever happens, and saying God only acts through natural causes.

Dr. Gage discusses another misconception — the idea that ID is mechanistic. Once again, this is a charge that is brought by Christians, not non-believers. A materialistic scientist is mechanistic, because, by definition, she believes there is only matter and energy acting in combination to produce everything. This is vastly different from the ID view. And it springs from a misunderstanding.

ID theorists speak of molecular machines. So do evolutionary biologists. But ID theorists do not make the claim that everything is mechanism and that living organisms are machines. Far from it. So where does this idea come from? Professor Gage writes:

The problem is a kind of reductionism that emerged out of early modern mechanical philosophy. It tended to treat organisms as nothing but the sum of their parts. ID theorists do not do this. Even if ID proponents thought that certain components of organisms are literal machines, it would be fallacious to infer that they are reductionists who think that whole organisms are machines. In truth, there is no general philosophy of nature presupposed in ID arguments, let alone a mechanistic Cartesian one.

I hope Gage’s words and mine have clarified what we mean by intelligent design and what we don’t mean. This way, the reader can read God’s Granderur as it is intended. Remember, intelligent design is the view that certain features of the universe and of living things are best explained by an intelligent cause rather than an undirected process. The issue for ID is not how it was done, when it was done, to what extent it was done, or even who did it. (The last question, as I said, must await illumination from other fields, such as philosophy.) It’s simply this: the origin and operation of the universe and living things display clear evidence or purposeful design.


The second horseman's ride through Sudan


Hope for Darwinism's simple beginning has perished.

 Now, with Starships, Evolutionary Origins Become Still More Difficult


Writing at Evolution News, David Coppedge reported this morning on “Starship Enterprise: Fungal Transposons Boldly Go.” So it appears that self-contained gene transposon “packages” permit transfer of genes from one species to another. Hybridization without sex. Horizontal gene transport. Forget universal common descent, we now have Starships. 

And as Stephen Barr says about physics in his book Modern Physics and Ancient Faith, for each new symmetry discovered, the origin explanation gets more complicated. Not only do genes have to appear de novo, but now entire Starship packages have to appear de novo. The origin explanation becomes more difficult, not less.

Wednesday, 26 April 2023

More on why we can't take OOL Science seriously

 

The New World Translation study bible's Commentary on Acts ch.20:28

  the blood of his own Son: Lit., “through the blood of the own (one).” Grammatically, the Greek expression could be translated “with the blood of his own” or “with his own blood,” so the context has to be taken into consideration. In Greek, the expression ho iʹdi·os (“his own”) could stand alone without a clarifying noun or pronoun, as seen by how it is rendered at Joh 1:11 (“his own home”); at Joh 13:1 (“his own”); at Ac 4:23 (“their own people”); and at Ac 24:23 (“his people”). In non-Biblical Greek papyri, the phrase is used as a term of endearment to refer to close relatives. A reader of this verse would logically understand from the context that a noun in the singular number is implied after the expression “his own” and that the noun referred to God’s only-begotten Son, Jesus Christ, whose blood was shed. Based on this, quite a number of scholars and translators acknowledge that the word “son” is to be understood here and render the phrase “with the blood of his own Son.”

Acts ch.20:28 Contemporary English Version "Look after yourselves and everyone the Holy Spirit has placed in your care. Be like shepherds to God's church. It is the flock he bought with the blood of his own Son.+"

Acts ch.20:28Good News Translation"So keep watch over yourselves and over all the flock which the Holy Spirit has placed in your care. Be shepherds of the church of God,+ which he made his own through the blood of his Son.+"

Acts ch.20:28American Standard Version,"Take heed unto yourselves, and to all the flock, in which the Holy Spirit hath made you bishops, to feed the church of the Lord which he purchased with his own blood."

Acts ch.20:28Darby Bible Translation"Take heed therefore to yourselves, and to all the flock, wherein the Holy Spirit has set you as overseers, to shepherd the assembly of God, which he has purchased with the blood of his own. "

Acts ch.20:28New English Translation"Watch out for yourselves and for all the flock of which the Holy Spirit has made you overseers, to shepherd the church of God that he obtained with the blood of his own Son. "


These starships have no prime directive?

 Starship Enterprise: Fungal Transposons Boldly Go


Some biochemists and molecular biologists have a Trekkie streak. Not long ago, they discovered Borgs (large libraries of genes in the soil accessed by microbes; see here and here). Now, Starships have landed in the literature. What are they, and what are they doing on our planet?

SETI enthusiasts sometimes think of space aliens as benefactors. Having evolved so many millions of years ahead of humans, and having outlived their own threats of global extinction, they would surely want to share their accumulated wisdom with us, and perhaps even come to Earth to serve man. Others fear space aliens as selfish monsters that would destroy us in a Darwinian fitness contest. Both attitudes are being expressed about the new Starships. What are they? Basically, they are “active eukaryotic transposable elements mobilized by a new family of tyrosine recombinases,” as explained in PNAS. The authors, from Sweden and Australia, are beginning to think these transposons are not all out to get us. Maybe some of them truly are here to serve man.

Converse to many transposons in prokaryotes that include within them genes providing benefits to their new hosts, transposons in eukaryotes have historically been considered selfish pieces of DNA. If Starships are indeed active host-beneficial transposons in fungi, they would closely parallel Integrative and Conjugative Elements in Bacteria and represent a major turning point in our understanding of fungal adaptation and evolution. The Starships are likely to have major impacts on human activities including the “domestication” of cheese-making fungi, increasing tolerance to anthropogenic environmental contaminants and most dramatically causing the emergence of novel plant diseases. By demonstrating the transposition of a Starship experimentally and identifying the enzyme responsible, we take an important step forward in our understanding of these elements.

A meeting with the Captain in this Starship enterprise allays some fears.

Transposable elements in eukaryotic organisms have historically been considered “selfish,” at best conferring indirect benefits to their host organisms. The Starships are a recently discovered feature in fungal genomes that are, in some cases, predicted to confer beneficial traits to their hosts and also have hallmarks of being transposable elements. Here, we provide experimental evidence that Starships are indeed autonomous transposons, using the model Paecilomyces variotii, and identify the HhpA “Captain” tyrosine recombinase as essential for their mobilization into genomic sites with a specific target site consensus sequence. Furthermore, we identify multiple recent horizontal gene transfers of Starships, implying that they jump between species.

Captain HhpA assures the biochemists that his crew is not selfish. The Starships have a mission: to explore strange new genomes, to seek out new fungi and new eukaryotes, and to boldly go where no transposon has gone before.

Information Is for Sharing

Like the Borgs, which appear to be “storage lockers” of genetic information accessible to multiple organisms in the soil, Starships bring the accumulated wisdom of the ages to eukaryotes. Bacteria were already known to benefit from their transposons, called ICEs (Integrative and Conjugative Elements). They’re not all bad.

ICEs are mobile DNA (~20 Kbp to >500 Kbp in size) that contain the genes required for genomic integration, excision, and transfer via conjugation. In addition, they contain a wide range of gene cargos conferring phenotypes such as antibiotic resistance, heavy metal resistance, nutrient utilization, and pathogenicity.

But Can We Trust Them?

The relative proportion of Starships carrying host-beneficial vs. neutral vs. deleterious cargo remains to be determined, and such contributions to fitness will depend on the environment in which the organism is growing. It has thus been proposed that Starships represent eukaryotic analogs of prokaryotic ICEs. A striking parallel between Starships and ICEs is that they often possess signatures of HGT [Horizontal Gene Transfer]. The vast number of sequenced genomes has led to the realization of recurrent HGT within fungi. Furthermore, these transfers are not limited to individual genes, but often encompass entire gene clusters. Many of these cases have since been predicted to involve Starship elements, uniting many disparate observations under a single phenomenon, and implicating Starships as vehicles of HGT in fungi. 

Since fungi are ubiquitous in the world, their accumulated knowledge bases can spread to higher organisms. Perhaps they work together with Borgs, checking out library books and putting them in an organism’s personal library. The authors give several examples of Starships with their own Captain proteins that appear to benefit their hosts. 

The First Starships Land

The term Starship for eukaryotic transposable elements (TE) stems from a paper in Molecular Biology and Evolution in which the authors suggested that they are analogs of bacterial TE’s with the following functions:

We propose that Starships are eukaryotic analogs of bacterial integrative and conjugative elements based on parallels between their conserved components and may therefore represent the first dedicated agents of active gene transfer in eukaryotes. Our results suggest that Starships have shaped the content and structure of fungal genomes for millions of years and reveal a new concerted route for evolution throughout an entire eukaryotic phylum.

One of the co-authors of that paper also appears in the new PNAS Paper, which began as a preprint on bioRxiv last August. Two years ago, Aaron A. Vogan of Uppsala University met the familiar Captain of a Starship:

Vogan et al. showed that the Captain protein KIRC has some similarity to YRs, but sequence identity between KIRC and HhpA is low (~14%). To investigate the Captain proteins further we computationally predicted structures using AlphaFold. The predictions showed considerable similarity for KIRC and HhpA (HhpA aa 8 to 671, KIRC aa 1 to aa 584, TM-score 0.71) as well as between HhpA and Cre recombinase (HhpA aa 39 to 431, KIRC aa 33 to aa 341, TM-score 0.59) (Fig. 2G). This strengthens the evidence that these two Captain proteins share a common function and that they both represent tyrosine recombinases.

Vogan has been busy drawing parallels to Star Trek. His 2021 paper referenced above is titled, “The Enterprise: a massive transposon carrying Spok meiotic gene drives.”

Some twenty Starship sites have been identified, according to the paper, but hundreds more may await discovery. The authors believe that Starship families (fleets?) are at work transferring genes horizontally between species of fungi. 

How Starships Perform Their Prime Mission

The Captain proteins in Starships open up sites in fungal genomes for insertion of genetic information, which can range from 27 to 393 kilobases in size. Genomes have defenses against transposable elements, suggesting a conflict of forces requiring terms of peace. One subsection of the paper is entitled, “Benefits Carried by Starship Transposons Are in Tension with Host Genome Defenses That Protect Against Mobile DNA.” 

Starships such as Hφ embody an inherent tension between their selfish properties; i.e., their mobility which is something that fungi typically employ defenses against and their cooperative properties, i.e., the host-beneficial genes they may contain…. We hypothesize that the resolution to this apparent paradox lies in consideringhorizontal transfer not as an oddity but as a fundamental feature in the lifecycle of host-beneficial Starships.

Accustomed as they are to thinking in Darwinian terms, the authors speak of selfishness, fitness, selective advantages, and survival in one paragraph, saying little else about those things for most of the paper. But of attempts to incorporate them into evolution, they admit that “Such hypotheses provide another frontier for further exploration.” Many of these Starshipelements show strong conservation even though presumed to have been around for hundreds of millions of years.

Serving Fungi Serves the Biosphere

Just as Borgs opened the possibility that large genetic libraries are being shared between organisms outside of cells, Starships now create a new paradigm for transposable elements within and between genomes. As with bacterial TEs, Starships acquire and disperse accessory genes as cargo. Some of the Starships are huge; they carry information on a variety of functional benefits to organisms. The 2022 paper suggests that Starships:

Provide accessory genes from one species to another
Offer standing genetic variation in structure and content for adaptation
Add virulence factors for parasitic and saprophytic growth
Confer protection from antibiotics, chemicals and pathogens
The authors summarize what studies have found so far:

Large DNA regions, dubbed “Starships,” have recently been hypothesized to act as host-beneficial eukaryotic transposons. Previously, we have demonstrated a beneficial effect of Hφ in increasing metal ion tolerance. Now we demonstrate the mobility of Starship elements and show that this movement is mediated by the Captain tyrosine recombinase. Furthermore, the identification of a near-identical Starship in the genomes of two different fungal species is compelling evidence that these elements move not only within a genome but also between species.

The authors believe that they have “only scratched the surface of the role of Starship-mediated HGT in fungi, i.e., by examining the most obvious cases in a single Starship family — Hφ.” And as beneficial TEs in prokaryotes had started dissolving the old “selfish gene” notion, now they are seeing similar host-beneficial operations in eukaryotes. “Bioinformatic exploration of genome sequences indicates that Starships are a pervasive phenomenon” in fungi so far, but who knows what other surprises lie ahead? The “study of Starships represents an exciting avenue toward increasing our understanding of how fungi rapidly evolve numerous traits that impact upon human activities.” Since higher organisms are increasingly known to engage in HGT, will scientists find Starships: The Next Generation at work throughout the biosphere?

Implications for Intelligent Design

This is not your grandfather’s neo-Darwinism. Where are the random mutations? Where is the natural selection? The sharing of information is not evolution in the Darwinian sense. By taking the Darwin glasses off, one might see systems at work allowing for prefabricated adaptation to new surroundings. Instead of Darwin’s meaningless world, it looks increasingly like a world engineered for adaptability by an intelligent cause exercising foresight. With that worldview in mind, ID scientists could take the lead on this exciting endeavor.

The singularity is a thing?


Tuesday, 25 April 2023

Richard Nixon: a brief history.


The death of higher ed?


God of the gaps no more?

 Michael Behe, Stephen Meyer, John Lennox: The Evidence for Design Is Growing


On a new episode of ID the Future, Uncommon Knowledge’s Peter Robinson sits down with Michael Behe, John Lennox, and Stephen Meyer, three of the leading voices in science and academia on the case for an intelligent designer of life and the universe. In this wide-ranging conversation in Fiesole, Italy, they explore the growing problems with modern evolutionary theory and the increasing evidence, uncovered by a rigorous application of the scientific method, that points to intentional design of the physical world.

Download the podcast or listen to it here

Being offended in the climate's behalf

 <iframe width="932" height="524" src="https://www.youtube.com/embed/K_fxt9SHH9E" title="The Kids Will See You in Court: Climate on Trial in Montana" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share" allowfullscreen></iframe>

Marketing companies are hacking our brains?


The rise(and fall?) Of the dragon.


Pseudo no more?

 Here’s That Study That Found Pseudo-Pseudogenes.




Evolution is Getting Demolished 

It is one of the strongest arguments for evolution: dysteleology, the apparent lack of design in the biological world. And the most obvious and compelling examples of such dysteleology are in the genome. And the most celebrated examples of dysteleology in the genome are the pseudogenes—genes which are broken. They are the long since abandoned junk of the genome. And the most obvious example of such brokenness is a stop codon that has accidentally arisen somewhere in the middle of the gene. These so-called premature termination codons (PTCs) halt the production of proteins in mid-stream. And the most abundant source of pseudogenes is the olfactory receptor families—genes involved in detecting odors. All those pseudogenes are a sure sign that no designer worth his salt would have constructed such a world. Evolution must be true, as evolutionists from Charles Darwin to Jerry Coyne have proclaimed. There’s only one problem—such examples of junk always turn out to be false.

At evolution’s foundation is the claim of lack of function, and that is a terrible argument. First of all, it is metaphysical rather than scientific. It is not a positivist argument—evolutionists have no idea how genes, or anything else for that matter—actually evolved. The argument is that such nonfunctional structures would never have been designed or created. That conclusion does not come from science, and cannot be tested by science. It is a religious argument.

But in addition to the metaphysics, showing that a structure has no function makes no sense to begin with. For one would have to watch the structure, in the organism, for the entire life of the organism. And one would have to be able to measure function—all possible functions. Needless to say, no evolutionist has ever done that.

But it gets worse.

Not only is the dysteleology argument religious and nonsensical, it is also false. At least in the cases that have been investigated. Over and over, the long lists evolutionists make of nonfunctional structures just get shorter and shorter.

That brings us to pseudogenes.

For sometime it has been known that not all pseudogenes are pseudogenes. That is, not all pseudogenes are junk. Some pseudogenes have been found to be performing useful functions. But typically these are onesies, twosies.

Now, a new Study has found something more interesting—a PTC in an olfactory receptor pseudogene that, in certain contexts, is not actually a termination codon after all. The gene has a stop codon, and yet the gene is successfully used to create a protein. The translation process somehow can read-through what normally would be a stop codon. The paper suggests this is accomplished with a near-cognate tRNA, which inserts an amino acid rather than causing a halt:
                      We suggest that read-through is due to PTC recognition by a near-cognate tRNA that allows insertion of an amino acid instead of translation termination.
                          What appeared to be a pseudogenes is actually functional. It is a pseudo pseudogene.

Furthermore, and importantly, this is not an isolated case. They found other examples, and conclude this could be a “widespread phenomenon.”
                         Pseudogenes are generally considered to be non-functional DNA sequences that arise through nonsense or frame-shift mutations of protein-coding genes. … We identify functional PTC-containing loci within different olfactory receptor repertoires and species, suggesting that such “pseudo-pseudogenes” could represent a widespread phenomenon.
                        Widespread phenomenon? This adds yet more support to the Project Encode suggestion, which evolutionists immediately pushed back on, that most of the genome is functional rather than junk as evolutionists had insisted (for example, see here, here, and here).

Pseudogenes comprise only a small fraction of the genome, but they have served as the poster child of junk DNA, and proof of evolution.

Instead, once again history appears to be reliable guide as pseudogenes appear to be going down the same path as those other supposedly “nonfunctional” structures. Instead of nonfunctional, pseudogenes are beginning to look like they may have a rather sophisticated function that was not apparent to evolutionists.

Of course function is often not apparent to evolutionists because they view biology as an accident. Organisms are built on a vast number of chance events so of course they will be found to be full of mistakes.

But in its inexorable march of progress, science always seems to find function. Evolution seeks lack of function, which makes no sense, and science just keeps on finding more function. Evolution and science, it seems, are in an eternal conflict.

Don’t expect contriteness anytime soon though. For evolutionists, the finding of function was never a problem. It simply is an example of evolution finding function for what was nonfunctional. The junk was repaired and took on some new function. In fact, it remains powerful evidence for evolution because it is obviously so quirky. When the supposedly “backward” retina of the mammalian eye was found to be incredibly sophisticated, evolutionists didn’t miss a beat. After all, it was still a kludge of a design. As Richard Dawkins put it, “it is the principle of the thing that would offend any tidy-minded engineer!”

So it really doesn’t matter how much function is found, and how optimal a design is. For man has found nature to be wanting, and so it must have formed by chance. This, in a nutshell, is Epicureanism. 
                 

Green energy is just as dirty?


Monday, 24 April 2023

The theory of everything?


The right question?

 Tim Ingold’s Question For Andy Gardner Says It All


A Not So Hidden Agenda

Anthropologist Tim Ingold’s question for Andy Gardner at last week’s “New trends in evolutionary biology” Scientific meeting at The Royal Society should disabuse those who still don’t get it. Gardner had finished his talk, “Anthropomorphism in evolutionary biology,” in which he acknowledged the design in biology. But if Gardner's organisms are actually designed, an agitated Ingold demanded, then how would Gardner’s explanation for their origin be any different from William Paley’s natural theology which invoked design?

Anyone who has interacted with evolutionists knows this moment all too well. The metaphysics and religion are always there for evolutionists, crouching at the door and ready to strike at any moment. Whether in lecture, seminar, or writings, the agenda is painfully obvious. As Eva Jablonka put it, “Not God—we’re excluding God.”

Evolution isn’t about the science—it never was. It doesn’t matter what the science shows, evolution must be true. 

Definitions re:the design inference.

Understanding Design Arguments: An Introduction for Catholics


Editor’s note: We are delighted to present this excerpt from the new book edited by biologist Ann Gauger, God’s Grandeur: The Catholic Case for Intelligent Design. You can download a full chapter and purchase the book at God'sgrandeur.org


In my experience, Catholics face many challenges when it comes to thinking about evolution and intelligent design. Many of us somewhere along the way had a priest or teacher tell us not to trouble ourselves about this issue; whatever “science” says is fine. In addition, there is even some confusion over the very meaning of the terms evolution and intelligent design.

In my introductory chapter to the new book God’s Grandeur, I aim to help readers think more carefully and critically about these ideas. Without worrying yet about whether design arguments are sound, we must first figure out what these arguments claim — and, just as importantly, what they do not claim. To this end, I provide some background, attempt to define our terms, discuss the form of such arguments, and consider common Catholic misconceptions. My hope is that we will then be in a better place to evaluate the success of such arguments in the chapters that follow.
                     
An Ancient Dialectic

For many American Catholics, discussions of evolution and intelligent design dredge up images of the “Scopes Monkey Trial” or Fundamentalist Christians attempting to have literal six-day creationism taught in public schools. While most of us Catholics are uncomfortable with the aggressive evolutionary atheism of Richard Dawkins and the New Atheists, we don’t feel that we have much of a dog in such fights. Yet we can be too hasty in this regard. The fundamental debate is not of recent vintage. The West has long had two dominant narratives about where our world’s astonishing and beautiful creatures come from: accidental events or intelligent foresight. These narratives predate not only Fundamentalist Christianity but Christianity itself. This issue pushes all the way down to fundamental metaphysics: What is the self-existent ultimate reality — impersonal matter or a personal Creator?

As far back as Socrates in the fifth century BC, we see the father of Western philosophy making an explicit design argument. His student Xenophon records Socrates’s view that we have been most favored by the supreme deity. We are uniquely arranged in body and mind. All other things appear to be here for our benefit. And nature itself seems consistently arranged in the best or finest way. All of this, Socrates argues, bears witness to divine providence. Variations on this basic theme appear in his successors Plato and Aristotle and beyond.

The opposing narrative came from the Greek atomists like Democritus, Leucippus, and Epicurus. Humans, they claimed, are intelligent of course. But this intelligence is a late arrival on the scene. Ultimate reality isn’t intelligent. What fundamentally exists are atoms and empty space in which the atoms collide. Just as you hear many today saying silly things like, “Love is just a chemical reaction in the brain,” so too did the atomists believe that all phenomena really reduce down to the properties of material bodies. For the atomists, highly organized beings like ourselves self-organize by accident. There are an infinite number of worlds. So with an infinite amount of time, every combination of atoms must manifest itself somewhere! Sure, organisms look intelligently designed, but poor accidental designs disappeared while good accidental designs survived.
                   There is truly nothing new under the sun. There are differences, to be sure, but the atomist narrative clearly anticipates not only Darwin’s theory but multiverse scenarios as well. The fundamental issue, all the way back, is whether the apparently designed features of our world are truly intelligently designed or whether they can be accounted for by lucky accidents with no intelligence involved. As even Richard Dawkins recognizes, “Biology is the study of complicated things that give the appearance of having been designed for a purpose.” Like the atomists before him, of course, he thinks this design is only apparent and not real.

What Intelligent Design Is

With this classical dialectic in view, intelligent design (ID) proponents typically define intelligent design as the view that certain features of the universe and of living things are best explained by an intelligent cause rather than an undirected process. Note that this doesn’t mean that no evolution has occurred, or that natural processes and forces don’t have their place. It is rather the minimal claim that it’s not natural processes and forces all the way down — a claim to which we Catholics are dogmatically committed, believing as we do that all things originate in God.

Design proponents have made arguments for real rather than apparent design at different levels. For instance, they’ve argued that the beginning of the universe requires an intelligent cause (William Lane Craig and James Sinclair), that the laws of physics are designed (Robin Collins), that our planet is uniquely designed (Guillermo Gonzalez and Jay W. Richards), that chemistry as we know it is designed for life (Michael Denton; Benjamin Wiker and Jonathan Witt), that the building blocks of living things cannot be found by blind searches but must be designed (Douglas Axe), that the first living creature and the fossil record give evidence of design (Stephen Meyer), and that both macro- and micro-features of living things give evidence of intelligent design (Michael Denton; Michael Behe).

Note three quick things about these arguments. First, contrary to stereotypes, these arguments are not “god-of-the-gaps” arguments. None of these arguments claims, “I don’t know what caused this, so God musta done it.” Rather, the standard mode of argumentation for design proponents is an inference to the best explanation — a common form of reasoning in general and in the historical sciences (like evolutionary biology) in particular. They argue that there are positive signs of intentional design in nature and that non-intentional explanations are weak by comparison. This is highly consonant with the Catholic faith. The Scriptures (e.g., Ps. 19 and Rom. 1), the Church Fathers (e.g., St. Gregory of Nazianzen), and the councils (e.g., Vatican I) all declare that God’s handiwork in nature is detectable by human reason and not just by faith.
                 Second, detecting design does not entail that we have detected divine “intervention” in nature. Design can be detected whether or not there was any direct action. One can tell that a field of corn was intentionally planted even if intermediate causes such as drones were used to plant the seeds. Similarly, design arguments need not imply unmediated divine action. 

Third, these arguments have clear theological implications, but ID proponents attempt to stick to the publicly available scientific evidence and do not argue from religious texts. Most intelligent design proponents are Christians, but an argument that the designer is the Christian God would require more than just the scientific evidence. ID proponents are not being coy about their belief in God but being careful about their conclusions. Aquinas does the same thing.

What Intelligent Design Isn’t

Many Catholic intellectuals labor under the false impression that intelligent design theorists propose a false dilemma: either there is an intelligent designer or else natural laws are responsible for these designed looking features of our world — as though God cannot be responsible for the natural laws themselves or that natural causes cannot be instruments of God (i.e., secondary causes). This would indeed be an unfortunate dilemma. Fortunately, this is a misunderstanding. ID does not imply a zero-sum game where if God is responsible for something then He must act directly and nature cannot be a true cause as well. Rather, the minimal claim is only that some features of our world give very good evidence of having been intelligently designed somewhere in their origin story. What ID denies is that every feature of nature is the product of natural forces all the way down. Given that this commitment is necessarily shared by Catholics, Catholic hostility to ID on this point is surprising, to put it mildly.

Florida's state government's white bear problem?


Cleaning house?


There isn't enough money in the world to top up on happiness?


There isn't enough money in the world to buy higher standards in public education?


A closer look at the Jovian moons


The fossil record's bombardment of Darwinian gradualism continues apace.

 Fossil Friday: The Explosive Origin of Complex Eyes in Trilobites


This Fossil Friday features a fossil from my own collection, a phacopid trilobite from the Devonian of Morocco. Note the remarkable preservation of the prominent compound eyes.

A recent work by Schoenemann (2021) provided a “comprehensive overview about what is known about trilobite eyes and their functioning after more than 120 years of intense research on this topic.” The author mentioned that trilobites “appeared close to the very beginning of the Cambrian Explosion” and “formed an important component of the Great Ordovician Diversification Event,” two events that have both been called ‘Big Bangs‘ of life. Schoenemann found that “the trilobite has no physical predecessor here” and “they are equipped from the very beginning of their appearance in the fossil record with elaborate compound eyes.” This confirms exactly what ID proponents like Stephen Meyer and myself have emphasized all the time. Schoenemann also describes how “the diversity of the morphology of trilobite eyes ‘explodes’ with the Ordovician”, which does not really sound like a gradual development in a Darwinian way. While some of the different types of trilobite eyes could at least theoretically be “achieved by modifications of the common principle of an original holochroal eyes,” the highly specialized schizochroal eyes of phacopids “show up as not being apposition eyes,” which requires a major re-engineering that certainly involved multiple coordinated mutations that imply a waiting time problem. Therefore, the abrupt origin of such biological innovations defies a Darwinian explanation, because the numbers do not add up. Another new study by Schoenemann et al. (2021) even reinforced this problem. They could show that phacopid eyes indeed represent a unique type of hyper compound eyes, where tens to hundreds of small compound eyes are each covered with a single lens. Nothing remotely similar is found among any of the other millions of arthropods or anywhere else in the animal realm.
            
A Phylogenetic Scenario

In a supplementary file the authors suggested a phylogenetic scenario for the origin of the different eyes in arthropods, but their figure rather emphasizes the anatomical gulf between the different constructions. The authors can offer no plausible explanation how such transitions could have been achieved, beyond embarrassingly superficial speculations that there could be genetic programs that “simply produced” these structures. It is a general pattern in evolutionary biology that so-called explanations follow the pattern ‘because evolution is true there may have been an imagined process X that made it happen’. That‘s hardly better than explaining the phenomenon that opium makes sleepy with an imagined dormitive power, which was already ridiculed by French playwright Molière (1673). Exercises in begging the question and fancy just-so storytelling dominate the field of evolutionary biology, while any rigorous hypotheses are conspicuously lacking, which is why I as a former evolutionary biologist have come to the conclusion that this discipline does not qualify as true science.

Another Interesting Fact

But there is another interesting fact that is worth mentioning: Even though there are gazillions of perfectly preserved trilobite fossils, which provide detailed information about their complete anatomy, including soft tissues and the intricate internal construction of their compound eyes, Schoenemann (2021) admitted that “still today the phylogenetic position is vigorously debated” with hardly any consensus beyond the trivial fact that they are (eu)arthropods. Darwinists should expect that with sufficient anatomical information any organism can be easily placed in the tree of life because homologous similarities should be a reliable guide to reconstruct common ancestry and phylogenetic relationship. The enormous controversies among biologists about conflicting phylogenetic evidence and incompatible tree reconstructions show that the Darwinian expectation commonly fails the litmus test of reality. Luckily the theory has been made immune to empirical falsification because it is simply assumed to be true by default as the only viable option for materialists. This kind of immunization against falsification combined with the demonization of any skeptics is another hallmark of pseudoscience.