ALBERT

Description: Die erneute moorkundlich-pollenanalytische Bearbeitung Nordfrieslands galten u.a. der Klärung folgender Fragen: 1. Sind die in größerer Entfernung von der Küste gewonnenen Erfahrungen über den Verlauf der Waldgeschichte der Nacheiszeit ohne weiteres auf die marschen zu Übertragen? 2. Welche Einflüsse der Meeresüberflutungen auf die Entwicklung der Moore und ihrer Vegetation lassen sich feststellen ? 3. Wie ist der zeitliche Ablauf der postglazialen Meeresspiegelschwankungen in Nordfriesland, und ist es möglich, Fehldatierungen auszuschließen, welche durch Abtragung, Umlagerung oder Durchmischung der in das Marschprofil eingeschlossenen pollenführenden Moorschichten bedingt sind?

Description: Since 1954 the Blake Plateau has interested the geophysical group at Woods HOle. Early cruises gathered data on this region incidental to other work. It became apparent that the area was worthy of more intense study. Questions about the bathymetry and underlying structure had been raised. This is a report of the most recent cruise undertaken to study the northern portion of the Plateau. It is intended to summarize the data collected and to be useful as art aid to investigators in preparation of manuscripts for publication.

Description: Attempts to classify pelagic sediments have been based either on appearance and composition, or on the ultimate origin of the components. In particular it appears feasible to distinguish minerals which crystallized in sea-water from those which formed in magmas, in hydrothermal solution, or by weathering under acidic conditions. It is the case of iron and manganese oxide mineral aggregates which constitute one of the major types of rock encountered on the ocean floor; according to Menard (unpublished) about 10% of the pelagic area of the Pacific is covered by such nodules. The nodules consist of intimately intergrown crystallites of different minerals among those identified, besides detrital minerals and organic matter, are opal, goethite, rutile, anatase, barite, nontronite, and at least three manganese oxide minerals of major importance. Arrhenius and Korkisch (1959) have attempted to separate from each other the different minerals constituting the nodules, in order to establish the details of their structure and the localization of the heavy metal ions. The results demonstrate (Table II) that copper and nickel are concentrated in the manganese oxide phases concentrated in the reducible fraction. Cobalt, part of the nickel and most of the chromium are distributed between these and the acid-soluble group of the non-manganese minerals, dominated by goethite and disordered FeOOH.

Description: Cores, submarine photography and dredges described in this report were taken during the R/V Eltanin Cruise 5 in 1962 by the Department of Geology, Florida State University. Cores and dredges were recovered for 31 stations and are available at the Antarctic Research Facility, Florida State University for sampling and study.

Description: In May 1964 the Institute of Marine Science (University of Miami), Scripps Institution of Oceanography (University of California), Woods Hole Oceanographic Institution, and Lamont Geological Observatory (Columbia University) joined in the establishment of the JOINT OCEANOGRAPHIC INSTITUTIONS DEEP EARTH SAMPLING (JOIDES) program. The long range purpose of this organization is to obtain continuous core samples of the entire sedimentary column from the floors of the oceans. It was decided that initial efforts would be limited to water depths of less than 1000 fathoms (6000 feet), and tentative locations were selected for drilling operations off the eastern, western and Gulf coasts of the United States. Near the end of December 1964 it was found that the M/V Caldrill I, a drilling vessel capable of working to depths of 6000 feet, was to engage in drilling operations on the Grand Banks of Newfoundland during the summer of 1965 for the Pan American Petroleum Corporation. Thus it was agreed to organize a drilling program along the track of Caldrill between California and the Grand Banks. Selection was made of an area on the continental shelf and the Blake Plateau off Jacksonville, Florida. Based upon many previous geological and geophysical investigations by the participating laboratories, a considerable body of knowledge had been gained about this region of the continental-oceanic border. For this initial program of JOIDES, the Lamont Geological Observatory was chosen as the operating institution with J. L. Worzel as principal investigator, and C. L. Drake and H. A. Gibbon as program planners.

Description: Todorokite is a very abundant manganese oxide mineral in many deposits in Cuba and has been noted from other localities. Six new analyses are givenl they lead to the approximate formula (Na, Ca, K, Mn+2)(Mn+4, Mn+2, Mg)6O12.3H2O. Electron diffraction data show the mineral to be orthorhombic, or monoclinic with beta near 90°. The x-ray powder pattern is indexed on a cell with a=0.75A, b=2.849A, c=9.59A, beta=90°. A differential thermal analysis curve is given.

Description: Chemical, x-ray and other data are given for todorokite, (Mn, Mg, Ca, Ba, Na, K)2.Mn5O12.3H2O, from Charco Redondo, Cuba, Farragudo, Portugal, and Hüttenberg, Austria. Additional localities at Romanèche, France, Saipan Island, Bahia, Brazil and Sterling Hill, New Jersey, are noted. Delatorreite of Simon and Straczek (1958) is identical with todorokite.

Description: This report contains the field data obtained during the February to April 1960 oceanographic expedition of the USC&GS ship Explorer, together with such results from the analyses of these data as are completed to date. As additional studies are completed, the results will be published by the U.S. Coast and Geodetic Survey or by the other Government agencies, private oceanographic institutions, or individual scientists who are primarily concerned. The USC&GSS Explorer is a 1,900-ton, 220-foot Ocean Survey Ship (OSS 28). During the winter of 1960, the ship was scheduled for a routine transfer from her original home port of Seattle, Wash., to be based in the future out of Norfolk, Va. With the current accelerated demand for oceanographic information, it was felt that this transfer offered a unique opportunity to obtain useful oceanographic information along the route from Seattle to Norfolk.

Description: Cores, submarine photography and dredges described in this report were taken during the R/V Eltanin Cruise 6 in 1963 by the Department of Geology, Florida State University. Cores and dredges were recovered for 32 stations along with bottom photography and are available at the Antarctic Research Facility, Florida State University for sampling and study.

Description: The cores and dredges described in this report were taken during the Vema 2 Expedition from July to December 1953 by the Lamont Geological Observatory, Columbia University from the R/V Vema. An approximate total of 12 cores, dredges and camera stations were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: A German coring device (Reineck, 1958) has been improved to obtain oriented, undisturbed cores at any depth of water. The samples are rectangular in shape, 8 × 12 inches in plan and a maximum of 18 inches high. Good cores have been obtained from clayey material as well as from gravelly sand. No disturbances due to coring were observed on the collected samples. These large samples make it possible to conduct many varieties of investigations, such as study of living organisms and shear strength measurements, as soon as the sample is on deck of a ship; radiography on slices, peeling and impregnation techniques, granulometry, mineralogy, porosity, fossil content, etc. Construction and use of the box corer and applications of some of these analytical techniques are described.

Description: Based on chemical, spectrographic and X-ray analyses, 34 samples from the experimental Mohole consist of variable proportions of calcite (0-60 percent), biogenic opal (0-50 percent), and normal lithogenous matter (14-97 percent) with an average of 20, 32, and 48 percent, respectively. Contamination with trachytic ash, rhyolitic ash, and saponite and dolomite occurring as alteration products of basaltic material affects the composition of a few samples. Magnesium, manganese, and phosphorus seem to have been derived from basaltic material also. The amounts of barium in the samples seems to be inversely related to sedimentation rates.

Description: Analyses are given for the core and outer colliform shell of a manganese nodule collected at a depth of 5000 m in the Indian Ocean, and for the red clay that encloses the nodules. Trace elements determined include rare earths, Nb, Ta, Th, and V. The cores of the nodules were once composed of basaltic rock, but now are phillipsite and nontronite. The outer shell is composed of manganite, with admixed quartz, phillipsite, and some geothite. The correlations established between the redox potentials and the concentration coefficients for 12 elements indicate that Eh plays a greater role in the formation of the manganiferous shells than coprecipitation properties.

Description: The cores and dredges described in this report were taken on the DODO Expedition in May 1964 until December 1964 by the Scripps Institution of Oceanography from the R/V Argo. A total of 290 cores and dredges were recovered and are available at Scripps for sampling and study.

Description: The origin of authigenic minerals on the ocean floor has been extensively discussed in the past with emphasis on two major processes; precipitation from solutions originating from submarine eruptions, and slow precipitation from sea water of dissolved elements, originating from weathering of continental rocks. It is concluded that in several marine authigenic mineral systems these processes overlap. A diagnostic principle is suggested, permitting a qualitative or semiquantitative discrimination between marine authigenic minerals crystallized from dissolved species, which have spent a long time in solution on the one hand, and the same minerals generated from solutions, near their source on the other. Extensive data are available for the manganese and iron oxide minerals forming manganese nodules. It is indicated on the basis of their composition and structure that many of the nodules found in the vicinity of the continents are made up essentially of manganese derived from continental weathering. In contrast to this group, all of the nodules found in the Pacific area of submarine vulcanism display the criteria for rapid precipitation near the source of solution. The distribution of barium minerals over the deep ocean floor is discussed.The same diagnostic principle is suggested for application to these solids, in order to discriminate between baryte and harmotome crystallized near the source of barium- rich, acidic vulcanites, and the same minerals formed from continental solution with passage through the biosphere. In the case of the authigenic aluminosilicates it is found that many of the framework elements (Si and particularly Al) have low passage time through solution, and the major fraction of these elements is consequently removed from solution in the vicinity of the eruptive source materials. Extensive modification of the crystal structures, however, takes place over long periods of time, adding particularly cations from sea water, and probably to some extent silica from siliceous fossils, which on their decay on the ocean floor appear to contribute to the silicate framework of growing zeolites. The marked fractionation of the rare earth ions between coexisting phases is pointed out, with discussion of the potential use of this phenomenon to indicate the processes of formation. The use of the hafnium/zirconium ratio as a tracer for the igneous source type is suggested, and the application of ideally imperfect tracers to establish the varying relative importance of volcanic versus halmeic source of marine minerals is discussed in general.

Description: This report gives a comprehensive general description of the scientific activities of Cruise 2 of R. R. S. 'Discovery'. These were largely geological and geophysical and were part of the British contribution to the International Indian Ocean Expedition. In addition to the thirteen geophysicists and geologists on board, there were five scientists involved in ocean chemistry, temperature measurements and ornithology making continuous observations - their accounts are also included. The report of a geological expediton ashore in the Seychelles is given in section 6.

Description: The cores and dredges described in this report were taken on the TETHYS Expedition from June 1960 until July 1960 by the Scripps Institution of Oceanography from the R/V Spencer F. Baird. A total of 124 cores and dredges were recovered and are available at Scripps for sampling and study.

Description: A criterion is suggested for discrimination between ferromanganese oxide minerals, deposited after the introduction of manganese and associated elements in sea water solution at submarine vulcanism, and minerals which are slowly formed from dilute solution, largely of continental origin. The simlultaneous injection of thorium into the ocean by submarine vulcanism is indicated, and its differentiation from continental thorium introduced into the ocean by runoff is discussed.

Description: Prof. H. H. W. Menard has brought together nearly all that was known of the Pacific geology in the early 1960s. His book contains a particular chapter on manganese nodules giving a stimulating review of the features and processes known to govern their distribution and chemical composition.

Description: The cores and dredges described in this report were taken on the Southern Borderland (SOB) Expedition in February-March 1960 by the Scripps Institution of Oceanography from the R/V Spencer F. Baird. A total of 34 cores and dredges were recovered and are available at Scripps for sampling and study.

Description: In an earlier paper by two of the authors the conclusion was reached that the 33 recognized species of oxides of Mn could be separated into 3 groups: 1) those which appeared to be persistently supergene in origin, 2) those which appeared to be persistently hypogene, and 3) those which were supergene in some localities and hypogene in other localities. When that paper was written, there were available about 250 X-ray diffraction analyses of mineral specimens, also 35 complete and about 150 partial chemical analyses. The conclusions of that paper were based upon the interpretation of the geologic conditions under which these specimens occurred. Late in the preparation of that paper, it seemed worthwhile to make numerous semiquantitative analyses of specimens, largely from 9 western [U.S.A] states, selected carefully from 5 groups of geologic environments, in the hope that the frequency and percentages of some elements might be distinctive of the several geologic groups. For this purpose, 95 specimens were selected from the 5 groups, as follows: 19 specimens interpreted as supergene oxides by the geologists who collected them, 35 specimens of hypogene vein oxides, 22 specimens of Mn-bearing hot spring aprons, 9 specimens of stratified oxides, and 10 specimens of deep-sea nodules. The spectrographic analyses here recorded indicate that a group of elements - W, Ba, Sr, Be, As, Sb, Tl, and Ge - are present more commonly, and largely in higher percentages, in the hypogene oxide than in the supergene oxides and thus serve to indicate different sources of the Mn. Also, the frequency and percentages of some of these elements indicate a genetic relation of the manganese oxides in hypogene veins, hot spring aprons, and stratified deposits. The analyses indicate a declining percentage of some elements from depth to the surface in these 3 related groups and increasing percentages of some other elements. It is concluded that some of the elements in deep-sea nodules indicate that sources other than rocks decomposed on the continents, probably vulcanism on the floors of the seas, have contributed to their formation.

Description: The cores and dredges described in this report were taken on the HILO Expedition in March-April 1962 by Scripps Institution of Oceanography from, the R/V Stranger. A total of 21 cores and dredges were recovered and are available at Scripps for sampling and study.

Description: On Vermilion Sea Expedition two research vessels among which the R/V Spencer F. Baird conducted a geological and geophysical exploration of the Gulf of California from February to May, 1959. Support was obtained from the Office of Naval Research and the Bureau of Ships of the U. S. Navy and from a grant of the American Petroleum Institute. Study of the canyons was one feature of the first part of the expedition. Submarine canyon studies were directed by Francis P. Shepard, Professor of Submarine Geology, aboard the research vessel Spencer F. Baird. The expedition found that the narrow channel between Angel de la Guarda Island, toward the head of the Gulf, and the peninsula is scoured almost free of sediments by strong currents. On the other side of Angel de la Guarda Island, between it and the mainland, one of the dredge hauls brought up a manganese nodule. It came from a depth of approximately 1500 feet. This is the shallowest water in which the nodules have been found. Studies have been under way some time on the feasibility of mining such nodules from the sea floor. They contain cobalt, nickel, copper and other valuable metals. (also in, Scripps Institution of Oceanography Vermilion Sea Expedition to the Gulf of California, http://library.ucsd.edu/dc/object/bb34484017)

Description: The cores described in this report were taken during the R/V Robert Conrad Cruise 01 from 4 until 20 December 1962 by the Lamont Geological Observatory, Columbia University. A total of 10 cores were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: The cores described in this report were taken during the R/V Robert Conrad Cruise 02 from 26 until 28 January 1963 by the Lamont Geological Observatory, Columbia University. A total of 5 cores were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: This report gives a comprehensive general description of the scientific activities of Cruise 2 of R. R. S. 'Discovery'. These were largely geological and geophysical and were part of the British contribution to the International Indian Ocean Expedition. In addition to the thirteen geophysicists and geologists on board, there were five scientists involved in ocean chemistry, temperature measurements and ornithology making continuous observations - their accounts are also included. The report of a geological expediton ashore in the Seychelles is given in section 6.

Description: The cores described in this report were taken during the R/V Robert Conrad Cruise 05 from March until April 1963 by the Lamont Geological Observatory, Columbia University. A total of 13 cores were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: The cores described in this report were taken during the R/V Robert Conrad Cruise 04 in March 1963 by the Lamont Geological Observatory, Columbia University. A total of 9 cores were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: The cores described in this report were taken during the R/V Robert Conrad Cruise 06 from May until June 1963 by the Lamont Geological Observatory, Columbia University. A total of 5 cores were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: The cores and dredges described in this report were taken during the Robert Conrad Cruise 7 from July until October 1963 by the Lamont Geological Observatory, Columbia University from the R/V Robert Conrad . A total of 29 cores and dredges were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: The cores and dredges described in this report were taken during the Vema 16 Expedition from October 1959 until September 1960 by the Lamont Geological Observatory, Columbia University from the R/V Vema. An approximate total of 300 cores, dredges and camera stations were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: The cores and dredges described in this report were taken during the Robert Conrad Cruise 8 from November 1963 until August 1964 by the Lamont Geological Observatory, Columbia University from the R/V Robert Conrad. A total of 140 cores and dredges were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: The cores described here were taken during the R/V Atlantis Cruise 260 from October until November 1960 by the Woods Hole Oceanographic Institution at the Muir Seamount. A total of 27 cores and dredges were recovered and are available at Woods Hole Oceanographic Institution for sampling and study.

Description: The cores and dredges described in this report were taken during the Vema 17 Expedition from December 1960 until October 1961 by the Lamont Geological Observatory, Columbia University from the R/V Vema. An approximate total of 210 cores, dredges and camera stations were recovered and are available at Lamont-Doherty Earth Observatory for sampling and study.

Description: Photography has become an integral part of submarine geological and biological investigations of the ocean bottom. The underwater cameras used to make these photographs were designed by Harold Edgerton. The pictures were taken from 1960 to 1962, from ships of the Woods Hole Oceanographic Institution. They show that life occurs even in the deepest trenches, and that sedimentary and biological processes in deep water do not differ in kind from those in shallow water.

Description: Reports on ATLANTIS Cruises 280 and 281 to the New England Seamount Chain are combined here. . A continuous bathymetric survey was run on both cruises, with profiles across several seamounts. A series of dredge and camera stations were made. They are dicussed in this report. Also included are photographs representative of each camera lowering and photographs of dredged material.

Description: From 1950 through 1900 studies on the glacial geology of northern Greenland have been made in cooperation with the U.S. Air Force Cambridge Research Laboratories. As a result of these studies four distinct phases of the latest glaciation have been recognized. The last glaciation extended over most of the land and removed traces of previous anes. Retreat of the ice mass began some time previous to 6000 years ago. This was followed by a rtse in sea level which deposited clay-silt succeeded by karne gravels around stagnant ice lobes in the large valleys. Marine terraces, up to 129 meters above present sea level, developed as readjustment occurred in the land free of ice. About 3700 years ago an advance of glaciers down major fjords took place followed by retreat to approximately the present position of the ice. Till in Peary Land, north of Frederick E. Hyde Fjord, contains only locally derived matertals indicating that the central Greenland ice cap did not cover the area.

Description: During the 33th voyage of the R/V "Vityaz" in the Indian Ocean iron-manganese nodules were collected at several stations. Both nodules and associated sediments were analysed by spectral analysis over 30 chemical elements. Radioactivity measurements were also performed on these samples.

Description: Uranium, radium, thorium and ionium were determined directly on seven concretions from three stations in the Indian Ocean, and on two concretions and a manganese-rich crust from two stations in the Pacific Ocean. The uranium content averages 3 to 5 gamma/g and the thorium content varies only slightly, but the Th/U ratio in the concretions is typically 2 to 5 in the Indian Ocean and 5 to 15.5 in the Pacific. The ionium content ranges from 1.0 x 10-9 to 3.6 10**-9 g/g in concretions from both oceans. Radium is more abundant in specimens from the Pacific Ocean (Ra = 3 - 12.7 x 10**-11 g/g) than from the Indian Ocean (1.5 - 5.2 x 10**-11 g/g). Analyses for Ca, Mn, Fe, Si, Ni, P, and ignition loss are also given. Radioactive equilibria between uranium, ionium, and radium are strongly disturbed throughout the concretions, and the RA/U and lo/U ratios generally exceed equilibrium ratios. Migration of radium from interior layers was established, so that neither determination of the ages of the concretions nor of their rates of growth can be considered reliable. The age of the concretions cannot exceed 800,000 years, and all grew within relatively short periods of time; there may have been "dormant" periods during growth. Estimates of growth rates are calculated from the radium and ionium contents; they show marked discordance.

Description: Chemical analyses are presented for two Cretaceous clays from Noil Tobee, Timor. Mineralogical examination has shown that they consist principally of quartz, feldspar, illite and chlorite, together with minor amounts of montmorillonite. Both chemically and mineralogically the clays are very similar to the recent argillaceous deep-sea sediments of the Pacific and Indian Oceans, which confirms Molengraaff's theory (1921) that they are of deep-sea origin. Further confirmation of this theory is provided by comparison of the composition of micromanganese nodules, separated from one of these clays, with that of manganese nodules from the Pacific Ocean.

Description: The cores and dredges described in this report were taken on the RISEPAC Expedition from October 1961 until February 1962 by the Scripps Institution of Oceanography from the R/V Spencer F. Baird. A total of 164 cores and dredges were recovered and are available at Scripps for sampling and study.

Description: The vast extent of pelagic deposits, covering about 70 per cent of the ocean floor, thus about half of the earth, makes them of obvious importance to all Earth Science. All the pelagic (eupelagic) sediments, whether largely of plankton remains or fine inorganic particles, have certain distinctive characteristics to reflect their environment of accumulation. The great segregation of manganese in pelagic sediments presents many problems. It is hypothesized that in the formation of present day nodules a relatively slow accumulation in order to permit deposition of more of the manganese as large nodules, rather than as the disseminated micronodules that are in larger proportion in the Tertiary.

Description: A synoptic review of the studies of well-known occurrences of palagonite tuffs is presented. Included are palagonite tuffs from Iceland, and pillow-lava palagonite complexes from Columbia River basalts and from the central Oregon coast. Additional petrologic and x-ray defraction data for selected samples are presented. Petrologic evidence shows that basaltic glass of aqueous tuffs and breccias consists of sideromelane, which is susceptible to palagonitization. It is shown that palagonitization is a selective alteration process, involving hydration, oxidation and zeolitization. Some of the manganese nodules dredged from the Pacific Ocean floor contain nucleus of palagonite-tuff breccias or of zeolite. A brief megascopic and microscopic description of nodules from the south Pacific, the Mendocino ridge and the 'Horizon' Nodule from the north Pacific is presented. Petrographic studies of palagonite-tuff breccias of manganese nodules and other palagonites suggest that migration and segregation of metallic elements occur during and subsequent to palagonitization. During the palagonitization of sideromelane, nearly 30 percent of sea water is absorbed. The hydration of sideromelane is also accompanied by oxidation of iron and other elements. These oxides may be released either in colloidal form or in true solution and tend to precipitate first from the unstable palagonite.

Description: This collection of data on manganese nodules on the floor of the Pacific Ocean represents all the information that was available to the authors in May, 1964. It is compiled from both published references and original data. No attempt is made here to generalize or to speculate on the origin of the manganese or associated elements further discussion of these aspects of the subject may be had by reference to the literature.

Description: One the most interesting features of ocean sedimentation is the manganese formations on the surface of the ocean floor in some areas. These are especially widespread in the Pacific Ocean as concretions, grains, and crusts on rock fragments and bedrock outcrops. Iron-manganese concretions are the most abundant as they completely cover about 10% of the bottom of the Pacific Ocean where there are ore concentrations. The concretions occupy from 20-50% of the bottom and up to 80-90% on separate submarine rises. Such concretions are found in different types of bottom deposits, from abyssal red clays to terrigenous muds, but they occur most widely in red clays and quite often in carbonate muds. Their shape and their dimensions are very diverse and change from place to place, from station to station, varying from 0.5-20 cm. They may be oval, globular, reniform, or slaggy and often they are fiat or isometric concretions of an indefinite shape. The concretions generally have nuclei of pumice, basalt fragments, clayey and tuffaceous material, sharks' teeth, whale ossicles, and fossil sponges. Most concretions have concentric layers, combined with dendritic ramifications of iron and manganese oxides.

Description: The present experimental study is based on evidence obtained on land showing that in areas covered by ancient continental ice the drift is to a large extent of local origin so that the quality of the rock ground is determinable from the composition of the drift with a great degree of probability. A geological map based on the bottom sampIes has accordingly been sketched of the Bothnian Sea area. Echo sounding has been made use of in determining the quality of the bottom at the sample points as well as for the interpretation of the morphological picture of the sea bottom. In order to obtain a uniform interpretation basis as weIl as a statistically adequate amount of stone grains from each sampIe, 2-16 mm has been chosen as the grain size for the pebble counts.

Description: Using spectrochemical techniques Fe, Si, Mg, Co, Ni, Cu, V, Mo, Ti and Tl have been estimated in nineteen manganese nodules, eight from the Atlantic ocean, seven from the Pacific ocean and four from the Indian ocean. Though data on more samples are required before firm and detailed conclusions can be made about the distribution of elements in manganese nodules, several distinct features appear when the data on the nineteen samples are examined. Certain elements appear to enrich more strongly than others. For example, relative to igneous rocks Mo is much more strongly enriched than V. For several elements (Ni, Cu and particularly Co and Tl) the degree of enrichment in two Fe-low nodules is far smaller than in the other nodules. The magnitude of dispersion of concentration appears to vary considerably for different elements; thus, whereas variation of concentration of V is relatively small, that of Ni, Cu, Co and Tl is far larger. The statistical nature of the distribution of Fe in manganese nodules appears to be characteristic and different from that of the other elements studied so far. Of the possible inter-element relationships examined that of Ni-Cu appears to be the most strongly developed.

Description: A compilation of chemical analyses of Pacific Ocean nodules using an x-ray fluorescence technique. The equipment used was a General Electric XRD-5 with a tungsten tube. Lithium fluoride was used as the diffraction element in assaying for all elements above calcium in the atomic table and EDDT was used in conjunction with a helium path for all elements with an atomic number less than calcium. Flow counters were used in conjunction with a pulse height analyzer to eliminate x-ray lines of different but integral orders in gathering count data. The stability of the equipment was found to be excellent by the author. The equipment was calibrated by the use of standard ores made from pure oxide forms of the elements in the nodules and carefully mixed in proportion to the amounts of these elements generally found in the manganese nodules. Chemically analyzed standards of the nodules themselves were also used. As a final check, a known amount of the element in question was added to selected samples of the nodules and careful counts were taken on these samples before and after the addition of the extra amount of the element. The method involved the determination and subsequent use of absorption and activation factors for the lines of the various elements. All the absorption and activation factors were carefully determined using the standard ores. The chemically analyzed samples of the nodules by these methods yielded an accuracy to at least three significant figures.

Description: Manganese nodules and manganese-coated pumice fragments were recovered at Station E6 at the middle of the flat Northwest Pacific Basin, during the Japanese Deep Sea Expedition of 1961 undertaken aboard R/V Ryofu Maru.

Description: The cores and dredges described in this report were taken on the LUSIAD Expedition from May 1962 until August 1963 by the Scripps Institution of Oceanography from both the R/V Argo and the R/V Horizon. A total of 310 cores and dredges were recovered and are available at Scripps for sampling and study.

Description: The cores and dredges described in this report were taken on the PROA Expedition in April 1962 until August 1962 by the Scripps Institution of Oceanography from the R/V Spencer F. Baird. A total of 180 cores and dredges were recovered and are available at Scripps for sampling and study.

Description: The Mellendorf and Brelingen hills are part of the large chain of contorted endmoraines (Drenthe stadial) which can be followed from the Netherlands to the region north of Braunschweig. The clay occurrences near Mellendorf, parts of them well-known for a long time, are blocks or overthrusts transported there by glacial movements. The dip of the tilted beds and the strike of clay occurrences indicate glacial thrusts from ENE, from W, TOW and from N. The dip of tilted sands and gravels in the Brelingen hills, however, points to a direction of ice motion from N to S. Micropalaeontological investigations in the clays of the Mellendorf and Brelingen hills have revealed the existence of foraminifera of Lower Cretaceous age, beginning with the Hauterivian, and a few of them also of the Upper Cretaceous. The proved thrust directions point to regions where the respective old beds of the Lower Cretaceous are exposed. Accordingly the length of transport must have been about 7—8 km. The slightly undulating country around Mellendorf is covered by a sheet of till. After the contortion, the ice advanced over the Mellendorf hills in a southern direction. The Brelingen hills, showing very recent relief and without a covering till, are younger and belong to a later recessional phase; the ice did not override them. The investigations demonstrate that three, perhaps even four, glacial thrusts of the Drenthe stadial took part in the genesis of this region.

Description: The Mid-Würmian "interstadial W I/II" plays a prominent part in the literature dealing with Pleistocene archaeology since 1931. This is not the case in the geological literature. Numerous strata dated by C14 measurement and sedimentanalysis, respectively, to be of Mid-Würmian age (between ca. 50000 and 30000 B.P.) in various Upper Pleistocene sequences are for the most part interstadial; ca. ten Würmian loess sequences dated by terrace morphology contain a Mid-Würmian considerable loam zone and a very weak vounger loam zone. These facts prove the reality of an interpleniglazial Mid-Würm between the two cold peaks of Early Würm and Young Würm. The interpleniglacial climate of Middle Würm was on the average rather a cool temperate one interrupted by warmer and colder oscillations. Within the Alps and in northern Europe the expansion of the Würmian and Weichselian ice-masses was stopped, they stagnated, their fronts oscillated more or less widely. At the close of the Middle Würm, the Würmian ice overflowed the northern Alpine passes and the Weichselian ice the Baltic basin, both as far as the Young Endmoraine girdle (Young Würm). In Central Europe Middle Würm divides the Middle and Upper Palaeolithic periods. To the Middle Würm has often been ascribed heretofore the well known loam stratum within the loess of Göttweig (Lower Austria), and with this loam has been correlated the basal loam zone of the triple Stillfried A complex of fossil soils displayed by loess sections of particularly arid regions (CSSR and eastern Lower Austria). Recent studies (the latest by palynology) of this loam have proved it to be of Riß/Würm Interglacial age. Till now, this correlation has not yet been demonstrated for the loam stratum of the type locality of Göttweig (also not datable by terrace morphology!). Therefore the term "Göttweig Interstadial" must be replaced by another name: Würmian Interpleniglacial.

Description: Das Skelett von Combe Capelle wurde bisher in das „Untere Aurignacien" (Périgordien I der neuen Nomenklatur) datiert. Diese Datierung erscheint jedoch zweifelhaft. Die alten Grabungsmethoden waren nicht exakt genug, um mit ihnen zu endgültigen stratigraphischen Schlußfolgerungen zu kommen. Die Bestattung wurde auf dem felsigen Untergrund entdeckt, leicht eingetieft in eine Strate Moustériens und „Unteren Aurignaciens". Aber es ist nicht erwiesen, daß der Tote auch zeitlich im „Unteren Aurignacien" bestattet wurde. Vielmehr scheint es, als handle es sich um ein Grab aus dem „Mittleren Aurignacien" (dem „Aurignacien typique" neuer Nomenklatur) oder sogar aus dem „Oberen Aurignacien" (dem Gravettien neuer Nomenklatur), das nachträglich in die genannten Schichten eingesenkt worden ist. Es ist wahrscheinlich, daß der Mann von Combe Capelle nicht den ältesten Menschenfund des jüngeren Paläolithikums schlechthin darstellt und daß er selber nicht auf französischem Boden bodenständig war.

Description: Wie früher dargelegt (K. Brunnacker 1956), sollen durch die Untersuchung von Höhlensedimenten in erster Linie folgende Probleme einer Klärung näher gebracht werden: Die Unterscheidung von warm- und kaltklimatischen Sedimenten (z. B. Sinter-Frostschutt) steht im Vordergrund der gesamten Untersuchungen. Hierbei kann auf den Grundvorstellungen von R. Lais (1941) aufgebaut werden. Doch ist dabei weiter von Bedeutung, ob es sich um dem (infolge Abwitterung laufend zurückweichenden) Eingang nahe Ablagerungen handelt, oder ob Material des Höhleninneren vorliegt. Ferner ist zu klären, ob autochthones oder infolge Einwehung bzw. Einschwemmung allochthones Material den Gesteinskörper aufbaut oder daran beteiligt ist. Schließlich sind nachträgliche Veränderungen im Sediment infolge pedogener Vorgänge einschließlich der spezifischen Art der Gesteinsverwitterung und ferner die durch evtl. auch nur kurzstreckige Umlagerung am Höhlenboden bedingten Schichtlücken bzw. -Verdoppelungen zu erfassen. Diese Fragen allein durch eine laboratoriumsmäßige Auswertung der Sedimentproben klären zu wollen ist nicht sinnvoll; es kommt vielmehr auf eine Verknüpfung der hierbei gemachten Befunde mit den am Aufschluß möglichen Beobachtungen an.

Description: Durch Bohrungen und Baugrubenaufschlüsse wurden im Bereich der Grone-Niederung im südlichen Leinetalgraben besonders vielgestaltige spätpleistozäne und holozäne Bildungen erschlossen. Durch Korrelation zahlreicher Flachbohrprofile über eine Distanz von 2,5 km wird die relative Alterstellung dieser Schichtglieder geklärt und durch Anschluß an die Ablagerungen der Leine-Niederung mit diesen in Parallele gesetzt (Abb. 2). Die Entstehung relativ mächtiger Torf- und Kalksinterlagen im Südwesten des Beobachtungsbereichs ist vermutlich durch Salzablaugung im Untergrund begünstigt worden.

Description: Aus Island sind u. a. Steinringe öfters erwähnt und beschrieben worden. Sie sind meist relativ klein und nicht an Dauerfrostboden geknüpft. Über ihre Verbreitung gibt es nur unvollständige und z. T. unrichtige Angaben. In den inneren Hochebenen sind „Pflasterböden" häufig, aber Steinringe fehlen dort — wenigstens in sehr weiten Gebieten — ganz. Die Ursache liegt vor allem in dem sehr wasserdurchlässigen Substrat aus vulkanischen Tuffen und Laven; dazu kommt der relativ geringe Niederschlag. Der Wassermangel im Boden läßt Bodenfrosterscheinungen und die Bildung von Strukturböden zurücktreten. Auf die gleiche Ursache geht die große Verbreitung der Wüsten in Island zurück, die (ohne die Gebirge) ½ des Landes einnehmen. Die isländischen Wüsten sind vorwiegend edaphisch und nicht so sehr klimatisch bedingt. — Es wird eine Einteilung der Wüsten auf der Erde in heiße Wüsten, Kältewüsten und edaphisch bedingte Wüsten gegeben.

Description: Vergleichende Betrachtungen der neuesten Untersuchungsergebnisse in verschiedenen Marschgebieten Niedersachsens und der Niederlande führen zu der Feststellung, daß trotz örtlich sehr unterschiedlicher Einflüsse auf das Sedimentationsgeschehen der Aufbau der holozänen Schichten von überregional wirksamen Faktoren bestimmt sein muß. Der Aufbau der holozänen Schichten im südlichen Nordseeküstengebiet wird vor allem durch die von glazialeustatischen Meeresspiegelbewegungen bedingte Meerestransgression bestimmt. Einflüsse tektonischer Krustenbewegungen und anderer Faktoren sind demgegenüber nur von untergeordneter Bedeutung. Der Ablauf der holozänen Meerestransgression an der südlichen Nordseeküste wird auf Grund von 57 Radiokarbondatierungen und umfangreicher Kartierungsarbeiten in einem Diagramm dargestellt. Es gibt unter größtmöglicher Berücksichtigung der Sedimentsetzungen die mittleren Hochwasserstände zu den verschiedenen Zeitperioden wieder. Stärkere Anstiegsbewegungen des Meeresspiegels treten im Präboreal (8000—6750 v. Chr.), im Atlantikum (5500—2500 v. Chr.) und im Subatlantikum (ab 300 v. Chr.) bis heute auf. Die umgekehrten Tendenzen sind im Boreal (6750—5500 v. Chr.) und im Subboreal (2500—300 v. Chr.) festzustellen. Diese Verlangsamungen bzw. Unterbrechungen des Transgressionsablaufes sind in etwa zeitgleich mit bedeutenden Gletscherregenerationen auf dem nordamerikanischen Kontinent. Diese beiden bedeutendsten Einschnitte in der Kurve des holozänen Transgressionsablaufes im Boreal und Subboreal werden zu einer Untergliederung des Holozäns in 3 Unterabteilungen verwendet (Alt-, Mittel-, Jungholozän). Innerhalb dieser Unterabteilungen werden dann jeweils eine untere Stufe (Transgressionsbeschleunigung) und eine obere Stufe (Transgressionsverlangsamung) unterschieden. Im Jungholozän stehen wir z. Zt. noch in der unteren Stufe. Weitere Untergliederungen ergeben sich aus der Ausscheidung kleinerer Schwankungen des Transgressionsverlaufes, wobei im unteren Mittelholozän 3 Folgen, im oberen Mittelholozän 2 Folgen und im Jungholozän 4 Folgen unterschieden werden können. Jede dieser Folgen setzt sich aus einem Überflutungs- und einem Verlandungsabschnitt zusammen.

Description: Es werden Gründe dafür vorgebracht, daß das Holozän als besondere Epoche angesehen werden kann. Für das Pleistozän werden verschiedene Einteilungen vorgelegt, von denen die in Tab. 2 wiedergegebene als beste angesehen und zur Diskussion gestellt wird. Im Anschluß daran wird die Frage einer weiteren Teilung sowohl der Mindel (= Elster)- als auch der Saale (= Riß)-Vereisung diskutiert. Für beides sprechen gute Gründe; doch fehlt noch eine sichere Bestätigung. Schließlich wird die Einteilung der Letzten Eiszeit (Würm, Weichsel) erörtert und eine etwas veränderte Gliederung vorgeschlagen.

Description: Der Artikel handelt über die Methodik der pleistozänen Forschungen im Terrain und über die Art der Bearbeitung paläontologischen Materials. Er zeigt die Möglichkeiten der Benutzung dieser Funde für die Stratigraphie der Würm-Sedimente. Auf Grund einer eingehenden morphologischen und metrischen Analyse der ganzen Faunen-Gemeinschaft ist es möglich die betreffende stratigraphische Einreihung durchzuführen. Die Faunen-Gemeinschaften des W 1/2-Interstadials und des R/W-Interglazials sind einander sehr ähnlich. Nach dem W 1/2-Interstadial tritt eine große faunistische Veränderung ein, und bis zum Ende des Wurms ändert sich dann diese Gesellschaft; nicht mehr. Das Ende des ersten Würm-Interstadials ist also eine sehr wichtige Grenze für die Änderung der ganzen Faunen-Gemeinschaft. Am Ende des Artikels werden dann einige stratigraphische Fragen erörtert.

Description: Ausführliche feldgeologische und morphologische Studien sowie die Auswertung zahlreicher Tiefbohrungen (zum Teil unter Anwendung sedimentpetrographischer Methoden) ermöglichten eine kritische Neubearbeitung der quartären („fortlebenden") Tektonik der Niederrheinischen Bucht. Es wird insbesondere auf die Lagerung des Pleistozäns — vor allem der älteren Flußterrassen von Rhein und Maas — in der linksrheinischen Buchthälfte eingegangen und die Art und das Ausmaß der tektonischen Lagerungsstörungen sowie deren räumliche und zeitliche Entwicklung aufgezeigt und in Karten (Taf. II—IV) dargestellt. Die junge Tektonik besitzt einen germanotypen Charakter. Ihr Baustil wird bestimmt einerseits durch weiträumige Schichtverbiegungen, Schollenschrägstellungen und trogförmige Einsenkungen, zum andern durch zahlreiche Verwerfungen mit überwiegend vertikaler, abschiebender Bewegungskomponente. Die Bruchlinien streichen gewöhnlich NW—SE („niederrheinisch") — seltener WNW—ESE, NNW—SSE, NNE—SSW, NE–SW — und weisen eine quartäre Sprunghöhe bis zu 175 m auf. Der tektonische Formenschatz läßt im Bereich der Niederrheinischen Bucht auf eine regional dehnende Krustenbeanspruchung in SW—NE-Richtung schließen (absoluter Ausweitungsbetrag seit Beginn des Quartärs möglicherweise 90—180 m), im ganzen rheinischen Raum auf eine Anhebung und Schrägstellung der „Westdeutschen Großscholle" gegen NW. Die quartäre Kippschollentektonik stellt keine selbständige Gebirgsbildung dar, sondern sie ist in räumlicher, zeitlicher und kinetischer Hinsicht aufs engste mit der jungtertiären Bruchtektonik der Niederrheinischen Bucht verknüpft. Man faßt beide am besten zu einem jungtertiär-quartären Bruchbildungszyklus zusammen. Dieser setzt mit schwachen, aber verbreiteten Bruchbewegungen im höheren Miozän (vermutlich mit dem Sarmat) ein; örtlich auch schon etwas früher (im Helvet und Torton). Im Verlauf der Pliozän-Zeit verstärkt sich die Bruchtätigkeit, und der Höhepunkt der Schollenverschiebungen wird im oberen Pliozän und im älteren Pleistozän erreicht. Erhebliche synsedimentäre und intersedimentäre Krustenbewegungen haben sich im Quartär während der Bildungszeit der Älteren und der Jüngeren Hauptterrasse, d. h. im prä-günz-eiszeitlichen und günz-eiszeitlichen Pleistozän ereignet, wo an manchen Sprüngen ein Verwurf von 80 und mehr Metern aufriß. Auch nach der Günz-Eiszeit kam es noch zu beträchtlichen Dislokationen, welche sich gewöhnlich deutlich in der heutigen Geländegestalt abzeichnen. Diese Bruchbewegungen erfolgen zum Teil vor dem Drenthe-Stadium der Riß-Eiszeit (vermutlich gekoppelt mit dem kräftigen Aufleben der Kippbewegung der „Westdeutschen Großscholle" im Mindel-Glazial und im Mindel/Riß-Interglazial), zum Teil während dieser Zeitspanne und auch noch nachher. Ablagerungen der Drenthe-Zeit sind an großen „fortlebenden" Sprüngen bis zu 30 m verworfen. Mit dem Riß/Würm-Interglazial und der Würm-Eiszeit klingt die Bruchtätigkeit merklich ab. Erst in der Nacheiszeit und der Gegenwart scheint sie wieder etwas aufzuleben. Die quartäre Bruchtektonik beschränkt sich in ihrer räumlichen Verbreitung im wesentlichen auf einen mittleren und westlichen Teilabschnitt der Niederrheinischen Bucht, wo sich ein von bedeutsamen Randstrukturen begrenzter Schollenstreifen („Niederrheinische Hauptbruchfurche") nicht erst in quartärer Zeit, sondern in gleicher Weise auch schon früher im Tertiär als ein Häufungsgebiet besonders großer Verwerfungen bemerkbar macht. In historischer Zeit stellt diese mobile Bruchfurche eine Zone erhöhter Seismizität dar.

Description: Nord-Cyrenaika besteht aus einem Gebiet von Kalksteinhügeln, welche von tiefen und schmalen Tälern durchsetzt sind. Auf den Abhängen dieser Täler finden sich Schuttdecken zweierlei Alters, wovon die älteren festverkittet und mit terrassiertem Kies wechsellagern, während die jüngeren nicht verfestigt sind und keine zugeordneten Terrassen haben. Beide Schichten können archäologisch mit der Schichtfolge in der Haua Fteah-Höhle korreliert werden, wo Higgs (1961) eine klimatische Folge nachgewiesen hat. Es wurde gefunden, daß die beiden Schichten zwei sukzessiven kalten Zeiten des Spätpleistozäns entsprechen. Die Gerölle werden dem Spaltenfrost zugeschrieben, welch letzterer daher mittelbar für die terrassierten Kiese verantwortlich wäre. Es wird versucht, diese Resultate als abhängig von Temperatur und Niederschlag zu erklären.

Description: The mountains of Kurdistan are a portion of the Taurus-Zagros, mountain arc that extends through southern Turkey, northern Iraq, and southwestern Iran and separates the Anatolian-Iranian Plateaus from the Mesopotamian Lowland. The crest reaches elevations of 3000-4000 m in the segment from the Cilo Dagh area in southeastern Turkey for 250 km to the Algurd Dagh area in northern Iraq. Southeastward the crestal elevation descends to 2200-2800 m, but in the Zardeh Kuh of southern Iran it again locally reaches 4000 m. The highest part of the range is generally in the belt of metamorphic rocks. The outer ridges are formed mostly by long folds of Mesozoic limestone, giving way in the foothills to folds in sediments as young as Pliocene. Within Kurdistan the ranges are cut transversely by four major tributaries of the Tigris River, namely the Khabur, Greater Zab, Lesser Zab, and Diyala Rivers. The climate of Kurdistan is marked by winter precipitation and summer drought. The rains are brought in part by cyclonic disturbances from the Mediterranean Sea, and in part by circulation around an anticyclone centered in winter over the Arabian peninsula. The regional precipitation increases with elevation in the mountains, and ranges from about 300 mm per year in the outer foothills to more than 1000 mm in the highest part of the range in the area of the Cilo Dagh and Algurd Dagh. The precipitation reaches a maximum here not only because the mountains are high and massive but also because here the trend of the ranges shifts from east to southeast, and the storms which follow the outer flank of the range from the Mediterranean Sea eastward are forced to rise over the mountains or be diverted sharply to the southeast. Inland from the mountains on the high Anatolian and Iranian Plateaus the precipitation falls abruptly to 300-500 mm. The vegetation in Kurdistan closely reflects the climate. The lower treellne has a general elevation of 700-1000 m on the outer foothills of the mountains for most of the distance along the ranges, and follows approximately the 500 mm precipitation line. The woodland consists domln-antly of deciduous oak, locally reduced to scrub by woodcutters and goats. In addition upiper may be found generally in the upper part of the forest zone. Maple, walnut, hawthorne, almond, and ash occur with the oak at middle elevations, and pistachio and olive are found on some of the drier sites. The upper treeline on the outer ranges occurs at an elevation of about 2000 m, and is presumably limited at this elevation by the temperature (January mean about 10° C). Southeastward along the range in Iran, where the crests of the ridges are generally less than 3000 m, the forest cover extends farther inland and terminates in what may be considered an inner tree-line, where the precipitation Is about 500 mm and the elevation about 1300-1500 m. Pleistocene glacial features were studied principally in three regions, the Algurd Dagh area in Iraq, Ruwandiz River area nearby, and the Cilo Dagh area in Turkey. The ridges near Algurd Dagh reach 3000-3500 m in elevation, and are so located with respect to the drainage that extensive Pleistocene glaciers formed on the northern slopes and flowed through gaps southward down valleys tributary to the Greater Zab River to elevations as low as 1100 m. The upper portions of broad valleys were plugged with glacial debris without distinct morainic loops but with lakes and other small depressions. Small cirques with floors as low as 1500 m were found on north-facing scopes of subsidiary ridges. The Ruwandiz River, one of the major tributaries of the Greater Zab River, contains Pleistocene glaclo-fluvial gravels at least 30 m thick in terraces 40-60 m above the present river. Although fresh cirques were found on some of the ridges crossed by the Ruwandiz River, the terraces do not head in a distinct moraine complex, and it is possible that they pre-date the last major gllacial advance. The relations are complicated by the presence of deposits attributed to landsliding In the headwater region. There terraces themselves contain intercalated colluvium and soil; they are overlain by thick colluvium that may represent the last glacial phase as well as the post-glacial. Earlier Pleistocene events In this region are recorded by still higher benches of limestone breccia (with Mousterian caves) on the hill slopes as well as by a remnant of a deposit of sand and gravel and even thin layers of lacustrine silt and limestone standing 250 m above the Ruwandiz River. In the area north of Cilo Dagh in southeastern Turkev, Pleistocene glacial deposits were found along the Greater Zab River as low as 1500 m elevation. They were supplied by glaciers originating on the north side of Cilo Dagh as well as on subsidiary ridges to the north and west. The lowest Pleistocene cirques identified have an elevation of about 1800 m, but the only areas visited were actuallv in the northern part of the glaciated area, where the precipitation is less than in the main Cilo Dagh and its outer flank. Although no modern glaciers exist in the Algurd Dagh area, several small remnants were mapped by BOBEK in cirques in the Cilo Dagh. The modern snowline on shaded exposures is placed at about 3300 m. Pleistocene cirques at 2100 m in the Cilo Dagh area and at 1500 m in the Algurd Dagh area imply a Pleistocene snowline depression of 1200-1800 m, a figure much larger than the 700 m postulated by Bobek. If Pleistocene depression of the snowline is assumed to be a result of depression of temperature alone, then the mean annual temperature must have been at least 12° C lower (based on a vertical temperature gradient of about 0.7° C/100 m). Such a value is as great as that infered for central Europe, where permafrost and tundra flora and fauna were apparently widespread. For Kurdistan there are no frost features or paleontologic records to indicate such low temperatures, and it is probable that the glaciation was result of increased snowfall as well as moderately lower temperature. This conclusion applies only to the outer flank of the Kurdish mountains, which may have received greatly increased winter snowfall as Mediterranean storms were intensified on the margin of a strengthened Asiatic anticyclone. On the Anatolian and Iranian Plateaus, however, the precipitation may not necessarily have been greater, and search for reliable geologic and paleontologic evidence must be made in this region. Despite the evidence for markedly different climatic conditions in Kurdistan during the last glacial phase of the Pleistocene, there is little evidence yet that climatic change near the Pleistocene was critical in the evolution of early man from hunters to farmers and herders. The transitional stages occurred during the period about 11,000 to 9,000 years ago, and it is probable that the climatic change that brought about glacier recession had been essentially by that time. In any case, the Pleistocene climatic changes may have involved only an altitudinal shifting of the life zones within the Kurdish mountains and foothills and the Mesopotamian piedmont, and that even during the glacial period there were natural habitats suitable for the animals and plants destined to be domesticated as soon as man reached the requisite cultural level.