SUMMARY OF CONTENTS.

Coast-chain and mountain-valleys of Caracas. The Lake of Tacarigua. Contrast between the luxuriant abundance of organic life and the treeless plains. Impressions of space. The steppe as the bottom of an ancient inland sea. Broken strata lying somewhat above the surface, and called Banks. Uniformity of phenomena presented by plains. Heaths of Europe, Pampas and Llanos of South America, African deserts, North Asiatic Steppes. Diversified character of the vegetable covering. Animal life. Pastoral tribes, who have convulsed the world—pp. [1]–5.

Description of the South American plains and savannahs. Their extent and climate, the latter dependant on the outline and hypsometrical configuration of the New Continent. Comparison with plains and deserts of Africa—pp. [5]–10. Original absence of pastoral life in America. Nutriment yielded by the Mauritia Palm. Pendant huts built in trees. Guaranes—pp. [10]–13.

The Llanos have become more habitable to man since the discovery of America. Remarkable increase of wild Oxen, Horses, and Mules. Description of the seasons of drought and rain. Aspect of the ground and sky. Life of animals; their sufferings and combats. Adaptability with which nature has endowed animals and plants. Jaguar, Crocodiles, Electric Fishes. Unequal contest between gymnoti and horses—pp. [13]–19.

Retrospective view of the districts which border steppes and deserts. Wilderness of the forest-region between the Orinoco and Amazon rivers. Native tribes separated by wonderful diversity both of language and customs; a toiling and divided race. Figures graven on rocks prove that even these solitudes were once the seat of a civilization now extinct—pp. [19]–21.

The island-studded Lake of Tacarigua. Its relation to the mountain-chains. Geognostic tableau. Progress of civilization. Varieties of the sugar-cane. Cacao plantations. Great fertility of soil within the tropics accompanied by great atmospheric insalubrity.—pp. [22]–26.

Banks, or broken floetz-strata. General flatness. Land-slips—pp. [26]–28.

Resemblance of the distant steppe to the ocean. Naked stony crust, tabular masses of syenite; have they a detrimental effect on the atmosphere?—pp. [28]–29.

Modern views on the mountain systems of the two American peninsulas. Chains, which have a direction from S.W. to N.E., in Brazil and in the Atlantic portion of the United States of North America. Depression of the Province of Chiquitos; ridges as watermarks between the Guaporé and Aguapehi in 15° and 17° south lat., and between the fluvial districts of the Orinoco and Rio Negro in 2° and 3° north lat.—pp. [29]–31.

Continuation of the Andes-chain north of the isthmus of Panamá through the territory of the Aztecs, (where the Popocatepetl, recently ascended by Capt. Stone, rises to an altitude of 17,720 feet,) and through the Crane and Rocky Mountains. Valuable scientific investigations of Capt. Frémont. The greatest barometric levelling ever accomplished, representing a profile of the ground over 28° of longitude. Culminating point of the route from the coast of the Atlantic to the South Sea. The South Pass southward of the Wind-River Mountains. Swelling of the ground in the Great Basin. Long disputed existence of Lake Timpanogos. Coast-chain, Maritime Alps, Sierra Nevada of California. Volcanic eruptions. Cataracts of the Columbia River—pp. [31]–38.

General considerations on the contrast between the configuration of the territorial spaces, presented by the two diverging coast-chains, east and west of the central chain, called the Rocky Mountains. Hypsometric constitution of the Eastern Lowland, which is only from 400 to somewhat more than 600 feet above the level of the sea, and of the arid uninhabited plateau of the Great Basin, from 5000 to more than 6000 feet high. Sources of the Mississippi in Lake Istaca according to Nicollet, whose labours are most meritorious. Native land of the Bisons; their ancient domestication in Northern Mexico asserted by Gomara—pp. [38]–42.

Retrospective view of the entire Andes-chain from the cliff of Diego Ramirez to Behring’s Straits. Long prevalent errors concerning the height of the eastern Andes-chain of Bolivia, especially of the Sorata and Illimani. Four summits of the western chain, which, according to Pentland’s latest determinations, surpass the Chimborazo in height, but not the still-active volcano, Aconcagua, measured by Fitz-Roy—pp. [42]–44.

The African mountain range of Harudje-el-Abiad. Oases of vegetation, abounding in springs—pp. [44]–46.

Westerly winds on the borders of the desert Sahara. Accumulation of sea-weed; present and former position of the great fucus-bank, from the time of Scylax of Caryanda to that of Columbus and to the present period—pp. [46]–50.

Tibbos and Tuaryks. The camel and its distribution—pp. [50]–53.

Mountain-systems of Central Asia between Northern Siberia and India, between the Altai and the Himalaya, which latter range is aggregated with the Kuen-lün. Erroneous opinion as to the existence of one immense plateau, the so-called “Plateau de la Tartarie”—pp. [53]–56.

Chinese literature a rich source of orographic knowledge. Gradations of the High Lands. Gobi and its direction. Probable mean height of Thibet—pp. [56]–63.

General review of the mountain systems of Asia. Meridian chains: the Ural, which separates lower Europe from lower Asia or the Scythian Europe of Pherecydes of Syros and Herodotus. Bolor, Khingan, and the Chinese chains, which at the great bend of the Thibetan and Assam-Burmese river, Dzangbo-tschu, stretch from north to south. The meridian elevations alternate between the parallels of 66° and 77° east long. from Cape Comorin to the Frozen Ocean, like displaced veins. Thus the Ghauts, the Soliman chain, the Paralasa, the Bolor, and the Ural follow from south to north. The Bolor gave rise, among the ancients, to the idea respecting the Imaus, which Agathodæmon considered to be prolonged northwards as far as the lowland or basin of the lower Irtysch. Parallel chains, running east and west, the Altai, Thian-schan with its active volcanos, which lie 1528 miles from the frozen ocean at the mouth of the Obi, and 1512 from the Indian Ocean at the mouth of the Ganges; Kuen-lün, already recognized by Eratosthenes, Marinus of Tyre, Ptolemy, and Cosmas Indicopleustes, as the greatest axis of elevation in the Old World, between 35½° and 36° lat. in the direction of the diaphragm of Dicæarchus. Himalaya. The Kuen-lün may be traced, when considered as an axis of elevation, from the Chinese wall near Lung-tscheu, through the somewhat more northerly chains of Nan-schan and Kilian-schan, through the mountain node of the “Starry Sea,” the Hindoo Cush (the Paropanisus and Indian Caucasus of the ancients), and, lastly, through the chain of the Demavend and Persian Elburz, as far as the Taurus in Lycia. Not far from the intersection of the Kuen-lün by the Bolor, the corresponding direction of the axes of elevation (inclining from east to west in the Kuen-lün and Hindoo Cush, and on the other hand south-east and north-west in the Himalaya) proves, that the Hindoo Cush is a prolongation of the Kuen-lün, and not of the Himalaya which is associated to the latter in the manner of a gang or vein. The point where the Himalaya changes its direction, that is to say, where it leaves its former east-westerly direction, lies not far from 81° east long. The Djawahir is not, as has hitherto been supposed, the next in altitude to the Dhawalagiri, which is the highest summit of the Himalaya; for, according to Joseph Hooker, this rank is due to a mountain lying in the meridian of Sikhim between Butan and Nepaul, called the Kinchinjinga or Kintschin-Dschunga. This mountain (Kinchinjinga) measured by Col. Waugh, Director of the Trigonometrical Survey of India, has for its western summit an altitude of 28,178 feet, and for its eastern 27,826 feet, according to the Journal of the Asiatic Soc. of Bengal, November, 1848. The mountain, now considered higher than the Dhawalagiri, is represented in the engraving to the title-page of Joseph Hooker’s splendid work, The Rhododendrons of Sikkim Himalaya, 1849. Determination of the snow-limits on the northern and southern slopes of the Himalaya; the former lies in the mean about 3620 up to 4900 feet higher. New statements of Hodgson. But for the remarkable distribution of heat in the upper strata of the air, the table-land of western Thibet would be uninhabitable to millions of human beings—pp. [63]–80.

The Hiongnu, whom Deguignes and John Müller considered to be a tribe of Huns, appear rather to be one of the widely spread Turkish races of the Altai and Tangnu mountains. The Huns, whose name was known even to Dionysius Periegetes, and who are described by Ptolemy as Chuns (hence the later territorial name of Chunigard!) are a Finnish tribe, from the Ural mountains, which separate the two continents—pp. [80]–81.

Representations of the sun, animals, and characters, graven on rocks at Sierra Parime, as well as in North America, have frequently been regarded as writing—p. [82].

Description of the cold mountain regions between 11,000 and 13,000 Parisian, or 11,720 and 13,850 English feet in height, which have been designated Paramos. Character of their vegetation—p. [83].

Orographic remarks on the two mountain clusters (Pacaraima and Sierra de Chiquitos) which separate the three plains of the lower Orinoco, the Amazon, and La Plata rivers from each other—p. [84].

Concerning the Dogs of the New Continent, the aboriginal as well as those from Europe, which have become wild. Sufferings of Cats at heights surpassing 13,854 feet—pp. [85]–88.

The Low Land of the Sahara and its relations to the Atlas range, according to the latest reports of Daumas, Carette, and Renou. The barometric measurements of Fournel render it very probable, that part of the north African desert lies below the level of the sea. Oasis of Biscara. Abundance of rock-salt in regions which extend from S.W. to N.E. Causes of nocturnal cold in the desert, according to Melloni—pp. [88]–92. Information respecting the River Wadi Dra (one-sixth longer than the Rhine), which is dry during a great part of the year. Some account of the territory of the Sheikh Beirouk, who is independent of the Emperor of Morocco, according to manuscript communications of Capt. Count Bouet Villaumez, of the French Marine. The mountains north of Cape Nun (an Edrisian name, in which by a play of words a negation has been assumed since the 15th century) attain an altitude of 9186 feet—pp. [92]–94.

Gramineous vegetation of the American Llanos between the tropics, compared with the herbaceous vegetation of the Steppes in Northern Asia. In these, especially in the most fertile of them, a pleasing effect is afforded in spring by the small snow-white and red flowering Rosaceæ, Amygdaleæ, the species of Astragalus, Crown-imperial, Cypripedias, and Tulips. Contrast with the desert of the salt-steppes full of Chenopodiæ, and of species of Salsola and Atriplex. Numerical considerations with respect to the predominant families. The plains which skirt the Frozen Ocean (north of what Admiral Wrangel has described as the boundary of Coniferæ and Amentaceæ), are the domain of cryptogamic plants. Physiognomy of the Tundra on an ever-frozen soil, covered with a thick coating of Sphagnum and other foliaceous mosses, or with the snow-white Cenomyce and Stereocaulon paschale—pp. [94]–96.

Chief causes of the very unequal distribution of heat in the European and American continents. Direction and inflection of the isothermal lines (equal mean-heat of the year, in winter and summer)—pp. [96]–105.

Is there reason to believe that America emerged later from the chaotic covering of waters?—pp. [105]–107. Thermal comparison between the northern and southern hemispheres in high latitudes—pp. [107]–109. Apparent connexion between the sand-seas of Africa, Persia, Kerman, Beloochistan, and Central Asia. On the western portion of the Atlas, and the connection of purely mythical ideas, with geographical legends. Indefinite allusions to fiery eruptions. Triton Lake. Crater forms, south of Hanno’s “Bay of the Gorilla Apes.” Singular description of the Hollow Atlas, from the Dialexes of Maximus Tyrius—pp. [110]–11.

Explanations of the Mountains of the Moon (Djebel-al-Komr) in the interior of Africa, according to Reinaud, Beke, and Ayrton. Werne’s instructive report of the second expedition, which was undertaken by command of Mehemet Ali. The Abyssinian high mountain chain, which, according to Rüppell, attains nearly the height of Mont Blanc. The earliest account of the snow between the tropics is contained in the inscription of Adulis, which is of a somewhat later date than Juba. Lofty mountains, which between 6° and 4°, and even more southerly, approach the Bahr-el-Abiad. A considerable rise of ground separates the White Nile from the basin of the Goschop. Line of separation between the waters which flow towards the Mediterranean and Indian seas, according to Carl Zimmermann’s map. Lupata chain, according to the instructive researches of Wilhelm Peters—pp. [114]–120.

Oceanic currents. In the northern part of the Atlantic the waters are agitated in a true rotatory movement. That the first impulse to the Gulf-stream is to be looked for at the southern apex of Africa, was a fact already known to Sir Humphrey Gilbert in 1560. Influence of the Gulf-stream on the climate of Scandinavia. How it contributed to the discovery of America. Instances of Esquimaux, who, favoured by north-west winds, have been carried, through the returning easterly inclined portion of the warm gulf-stream, to the European coasts. Information of Cornelius Nepos and Pomponius Mela respecting Indians, whom a King of the Boii sent as a present to the Gallic Proconsul Quintus Metellus Celer; and again of others in the times of the Othos, Frederick Barbarossa, Columbus, and Cardinal Bembo. Again, in the years 1682 and 1684, natives of Greenland appeared at the Orkney Islands—pp. [120]–125.

Effects of lichens and other cryptogamia in the frigid and temperate zones, in promoting the growth of the larger phanerogamia. In the tropics the preparatory ground-lichens often find substitutes in the oleaginous plants. Lactiferous animals of the New Continent; the Llama, Alpaca, and Guanaco—pp. [125]–128. Culture of farinaceous grasses—pp. [128]–131. On the earliest population of America—pp. [131]–134.

The coast-tribe the Guaranes (Warraus), and the littoral palm Mauritia, according to Bembo, Raleigh, Hillhouse, Robert and Richard Schomburgk—pp. [134]–136.

Phenomena produced in the Steppe by a long drought. Sand-spouts, hot winds, deceptive images by aërial refraction (mirage). The awaking of crocodiles and tortoises after a long summer sleep—pp. [136]–142.

Otomaks. General considerations respecting the earth-eating of certain tribes. Unctuous and Infusorial earths—pp. [142]–146.

Carved Figures on rocks, which form a belt running east and west from the Rupunuri, Essequibo, and mountains of Pacaraima, to the solitudes of the Cassiquiare. Earliest observation (April, 1749) of such traces of an ancient civilization, in the unpublished travels of the Surgeon Nicolas Hortsmann, of Hildesheim, found among d’Anville’s papers—pp. [147]–151.

The vegetable poison Curare, or Urari—pp. [151]–152.

The Orinoco, general view of its course. Ideas excited in the mind of Columbus on beholding its mouth. Its unknown sources lie to the east of the lofty Duida and of the thickets of Bertholletia. Cause of the principal bends of the river—pp. [153]–162. The Falls. Raudal of Maypures, bounded by four streams. Former state of the region. Insular form of the rocks Keri and Oco. Grand spectacle displayed on descending the hill Manimi. A foaming surface, several miles in extent, suddenly presents itself to view. Iron-black masses of tower-like rocks rise precipitately from the bed of the river; the summits of the lofty palms pierce through the clouds of vapoury spray—pp. [162]–168.

Raudal of Atures, another island-world. Rock-dykes, connecting one island with the other. They are the resort of the pugnacious, golden-coloured rock manakin. Some parts of the river-bed in the cataracts are dry, in consequence of the waters having formed for themselves a channel through subterranean cavities. Visit to these parts on the approach of night, during a heavy thunder-storm. Unsuspected propinquity of crocodiles—pp. [168]–171. The celebrated cave of Ataruipe, the grave of an extinct tribe—pp. [171]–173.

Abode of the river-cow (Trichecus Manati) in the sea, at the spot where, in the Gulf of Xagua on the southern coast of the Island of Cuba, springs of fresh water gush forth—pp. [174], 175.

Geographical illustration of the sources of the Orinoco—pp. [175]–179.

Juvia (Bertholletia), a Lecythidea, remarkable as an instance of lofty organic development. Haulm of an Arundinaria upwards of sixteen feet from joint to joint—pp. [179]–180.

On the fabulous Lake Parime—pp. [180]–188.

The Parrot of Atures, a poem by Ernst Curtius. The bird lived in Maypures, and the natives declared that he was not understood, because he spoke the language of the extinct Aturian tribe—pp. [188]–190.

Difference in the richness of languages as regards precise and definite words for characterizing natural phenomena, such as the state of vegetation and the forms of plants, the contour and grouping of clouds, the appearance of the earth’s surface, and the shape of mountains. Loss which languages sustain in such expressive words. The misinterpretation of a Spanish word has enlarged mountain-chains on maps, and created new ranges. Primeval Forest. Frequent misuse of this term. Want of uniformity in the association of the arboral species is characteristic of the forests within the tropics. Causes of their imperviousness. The Climbing plants (Lianes) often form but a very inconsiderable portion of the underwood—pp. [191]–196.

Aspect of the Rio Apure in its lower course. Margin of the forest fenced like a garden by a low hedge of Sauso (Hermesia). The wild animals of the forest issue with their young through solitary gaps, to approach the river-side. Herds of large Capybaræ, or Cavies. Fresh-water dolphins—pp. [196]–199. The cries of wild animals resound through the forest. Cause of the nocturnal noises—pp. [199]–200. Contrast to the repose which reigns at noontide on very hot days within the tropics. Description of the rocky narrows of the Orinoco at the Baraguan. Buzzing and humming of insects; in every shrub, in the cracked bark of trees, in the perforated earth, furrowed by hymenopterous insects, life is audible and manifest—pp. [200]–201.

Characteristic denominations of the surface of the earth (Steppes, Savannahs, Prairies, Deserts) in the Arabic and Persian. Richness of the dialects of Old Castile for designating the forms of mountains. Fresh-water rays and fresh-water dolphins. In the giant streams of both continents some organic sea-forms are repeated. American nocturnal apes with cat’s eyes; the tricoloured striped Douroucoali of the Cassiquiare—pp. [202]–203.

Pentland’s measurements in the eastern mountain-chain of Bolivia. Volcano of Aconcagua, according to Fitz-Roy and Darwin. Western mountain-chain of Bolivia—pp. [204]–205. Mountain systems of North America. Rocky Mountains and snowy chain of California. Laguna de Timpanogos—pp. [205]–207. Hypsometric profile of the Highland of Mexico as far as Santa Fé—pp. [207]–209.

Universal profusion of life on the slopes of the highest mountain summits, in the ocean and in the atmosphere. Subterranean Flora. Siliceous-shelled polygastrica in masses of ice at the pole. Podurellæ in the ice tubules of the glaciers of the Alps; the glacier-flea (Desoria glacialis). Minute organisms of the dust fogs—pp. [210]–213.

History of the vegetable covering. Gradual extension of vegetation over the naked crust of rock. Lichens, mosses, oleaginous plants. Cause of the present absence of vegetation in certain districts.—pp. [213]–220.

Each zone has its peculiar character. All animal and vegetable conformation is bound to fixed and ever-recurring types. Physiognomy of Nature. Analysis of the combined effect produced by a region. The individual elements of this impression. Outline of the mountain ranges; azure of the sky; shape of the clouds. That which chiefly determines the character is the vegetable covering. Animal organizations are deficient in mass; the mobility of individual species, and often their diminutiveness, conceals them from view—pp. [220]–223.

Enumeration of the forms of Plants which principally determine the physiognomy of Nature, and which increase or diminish from the equator towards the Pole, in obedience to established laws—

Enjoyment resulting from the natural grouping and contrasts of these plant-forms. Importance of the physiognomical study of plants to the landscape-painter—pp. [229]–231.

Organisms, both animal and vegetable, in the highest Alpine regions, near the line of eternal snow, in the Andes chain, and the Alps; insects are carried up involuntarily by the ascending current of air. The small field-mouse (Hypudæus nivalis) of the Swiss Alps. On the real height to which the Chinchilla laniger mounts in Chili—pp. [232]–233.

Lecideæ, Parmeliæ on rocks not entirely covered with snow; but certain phanerogamic plants also stray in the Cordilleras beyond the boundary of perpetual snow, thus Saxifraga Boussingaulti to 15,773 feet above the level of the sea. Groups of phanerogamic Alpine plants in the Andes chain at from 13,700 to nearly 15,000 feet high. Species of Culcitium, Espeletia, Ranunculus, and small moss-like umbellifera, Myrrhis andicola, and Fragosa arctioides—pp. [233]–234. Measurement of Chimborazo, and etymology of the name—pp. [234]–236. On the greatest absolute height to which men in both continents, in the Cordilleras and the Himalaya,—on the Chimborazo and Tarhigang—have as yet ascended—p. [236].

Economy, habitat, and singular mode of capturing the Condor (Cuntur, in the Inca language) by means of palisades—pp. [237]–239. Use of the Gallinazos (Cathartes urubu and C. aura) in the economy of nature, for purifying of the air in the neighbourhood of human dwellings; their domestication—pp. [239]–240.

On the so-called revivification of the rotifera, according to Ehrenberg and Doyère; according to Payen, germs of Cryptogamia retain their power of reproduction in the highest temperature—pp. [240]–241.

Diminution, if not total suspension, of organic functions in the winter-sleep of the higher classes of animals—p. [242]. Summer-sleep of animals in the tropics. Drought acts like the cold of winter. Tenrecs, Crocodiles, Tortoises, and East-African Lepidosirens—pp. [242]–244.

Pollen, Fructification of Plants. The experience of many years concerning the Cœlebogyne; it brings forth mature seeds in England without a trace of male organs—pp. [244]–245.

The phosphorescence of the Ocean through luminous animals as well as organic fibres and membranes of the decomposing animalculæ. Acalephæ and siliceous-shelled luminous infusoria. Influence of nervous irritability on the coruscation—pp. [245]–250.

Pentastoma, inhabiting the lungs of the rattle-snake of Cumana—p. [251].

Rock-constructing Coral animals. The structure surviving the architects. More correct views of the present period. Coast-reefs, Reefs surrounding islands and Lagoon-islands. Atolls, Coral walls inclosing a lagoon. The royal gardens of Christopher Columbus, The Coral Islands south of Cuba. The living gelatinous coating of the calcareous fabric of the coral-stems allures fishes in quest of food, and also turtles. Singular mode of fishing with the Remora, Echeneis Naucrates (the little angling fish)—pp. [251]–258.

Probable depth of the coralline structures—pp. [258]–260. Besides a great quantity of carbonate of lime and magnesia, the madrepores and Astreæ contain also some fluoric and phosphoric acid—pp. [260]–261. Oscillating state of the sea-bottom according to Darwin—pp. [261]–262.

Irruptions of the sea. Mediterranean Sea. Sluice-theory of Strato. Samothracian legends. The Myth of Lyctonia and the submerged Atlantis—pp. [262]–266. Concerning the precipitation of clouds—p. [266]. The indurating crust of the earth while giving out caloric. Heated currents of air, which in the primordial period, during the frequent corrugations of the mountainous strata, and the upheaval of lands, have poured into the atmosphere through temporary fissures and chasms—pp. [266]–268.

Colossal size and great age of certain genera of trees, e. g., the dragon-tree of Orotava of 13, the Adansonia digitata (Baobab) of 33 feet in diameter. Carved characters of the 15th century. Adanson assigns to certain Baobab-stems of Senegambia an age of from 5000 to 6000 years—pp. [268]–273.

According to an estimate based on the number of the annual rings, there are yews (Taxus baccata) of from 2600 to 3000 years old. Whether in the temperate northern zone that part of a tree which faces the north has narrower rings, as Michael Montaigne asserted in 1581? Gigantic trees, of which some individuals attain a diameter of above 20 feet and an age of several centuries, belong to the most opposite natural families—pp. [273]–274.

Diameter of the Mexican Schubertia disticha of Santa Maria del Tule 43, of the oak near Saintes (Dep. de la Charente inf.) 30 feet. The age of this oak considered by its annual rings to be from 1800 to 2000 years. The main stem of the rose-tree (27 feet high) at the crypt of the church of Hildesheim is 800 years old. A species of fucus, Macrocystis pyrifera, attains a length of more than 350 feet, and therefore exceeds all the conifera in length, not excepting the Sequoia gigantea itself—pp. [274]–276.

Investigations into the supposed number of the phanerogamic species of plants, which have hitherto been described or are preserved in herbariums. Numerical ratios of plant-forms. Discovered laws of the geographical distribution of the families. Ratios of the great divisions: of the Cryptogamia to the Cotyledons, and of the Monocotyledons to the Dicotyledons, in the torrid, temperate, and frigid zones. Outlines of arithmetical botany. Number of the individuals, predominance of social plants. The forms of organic beings stand in mutual dependence on each other. If once the number of species in one of the great families of the Glumaceæ, Leguminosæ, or Compositæ, on any one point of the earth, be known, an approximative conclusion may be arrived at not only as to the number of all the phanerogamia, but also of the species of all remaining plant-families growing there. Connection of the numerical ratios here treated on in the geographical distribution of the families, with the direction of the isothermal lines. Primitive mystery in the distribution of types. Absence of Roses in the southern, and of Calceolarias in the northern zone. Why has our heath (Calluna vulgaris), and why have our Oaks not progressed eastwards across the Ural into Asia? The vegetation-cycle of each species requires a certain minimum heat for its due organic development—pp. [273]–287.

Analogy with the numeric laws in the distribution of animal forms. If more than 35,000 species of phanerogamia are now cultivated in Europe, and if from 160,000 to 212,000 phanerogamia are now contained, described and undescribed, in our herbariums; it is probable that the number of collected insects scarcely equals that number of phanerogamia; whereas in individual European districts the insects collected preponderate in a threefold ratio over the phanerogamia—pp. [287]–291.

Considerations on the proportion borne by the number of the phanerogamia actually ascertained, to the entire number existing on the globe—pp. [291]–295.

Influence of the pressure of atmospheric strata on the form and life of plants, with reference to Alpine vegetation—pp. [295]–296.

Specialities on the plant-forms already enumerated. Physiognomy of plants discussed from three different points of view: the absolute difference of the forms, their local preponderance in the sum total of the phanerogamic Floras, and their geographical as well as climatic dispersion—pp. [296]–346. Greatest height of arboral plants; examples of 223 to 246 feet in Pinus Lambertiana and P. Douglasii, of 266 in P. Strobus, of 300 feet in Sequoia gigantea and Pinus trigona. All these examples are from the north-western part of the New Continent. The Araucaria excelsa of Norfolk Island, accurately measured, rises only from 182 to 223 feet; the Alpine palms of the Cordilleras (Ceroxylon andicola), only 190 feet—pp. [322]–324. A contrast to these gigantic vegetable forms, presented not merely by the stem of the arctic willow (Salix arctica, two inches in height,) stunted by cold and exposure on the mountains, but also in the tropical plains by the Tristicha hypnoides, a phanerogamic plant which is hardly three French lines (quarter of an inch) in height, when fully developed—pp. [324]–325.

Bursting forth of blossoms from the rough bark of the Crescentia Cujete, of the Gustavia augusta, from the roots of the Cacao tree. The largest blossoms borne by the Rafflesia Arnoldi, Aristolochia cordata, Magnolia, Helianthus annuus—p. [348].

The different forms of plants determine the scenic character of vegetation in the different zones. Physiognomic classification, or distribution of the groups according to external facies, is from its basis of arrangement entirely different from the classification according to the system of natural families. The physiognomy of plants is based principally on the so-called organs of vegetation, on which the preservation of the individual depends; systematic botany bases the classification of the natural families on the consideration of the organs of reproduction, on which the preservation of the species depends—pp. [348]–352.

Influence of travels in distant lands on the generalization of our ideas and on the progress of physical orology. Influence of the conformation of the Mediterranean on the earliest ideas respecting volcanic phenomena.—Comparative Geology of Volcanos. Periodical return of certain revolutions in nature, the cause of which lies deep in the interior of the globe. Proportion of the height of volcanos to that of their cone of ashes in the Pichincha, Peak of Teneriffe, and Vesuvius. Changes in the height of volcanic mountain summits. Measurements of the margins of the crater of Vesuvius from 1773 to 1822; the author’s measurements embrace the period from 1805 to 1822—pp. [353]–365. Circumstantial description of the eruption in the night between the 24th and 25th of October, 1822. Falling in of a cone of ashes more than 400 feet high, which stood in the interior of the crater. The eruption of ashes from the 24th to the 28th of October, was the most memorable among those, of which authentic accounts are possessed, since the time of the elder Pliny—pp. [365]–371.

Difference between volcanos that are of very diverse forms, with permanent craters, and the phenomena more rarely observed in historic times, in which trachytic mountains suddenly open, eject lava and ashes, and reclose, perhaps for ever. The latter phenomena are peculiarly instructive for geognosy, because they remind us of the earliest revolutions that occurred in the oscillating, upheaved, fissured surface of the earth. In ancient times they led to the notion of the Pyriphlegethon. Volcanos are intermittent earth-springs, the result of a permanent or transitory connection between the interior and exterior of our planet, the result of a reaction of the still fluid interior against the crust of the earth; hence the question is useless, as to what chemical substance burns in the volcanos, and furnishes the material for combustion—pp. [371]–373. The primary cause of subterranean heat is, as in all planets, the formative process itself, the separation of the conglomerating mass from a cosmic vaporous fluid. Power and influence of the calorific radiation from numerous deep fissures, unfilled veins in the primordial world. Great independence, at that period, of the climate (atmospheric temperature) in respect to geographical latitude, the position of the planet towards the central body, the sun. Organisms of the present tropical world buried in the icy north—pp. [373]–375.

Barometric measurements on Vesuvius, comparison of the two crater-margins and the Rocca del Palo—pp. [376]–379. Increase of temperature with depth, being 1° of Fahrenheit for every 54 feet. Temperature of the Artesian well in Oeynhausen’s Bath (New Salt-works near Minden), at the greatest depth yet reached below the level of the sea. As early as the third century the thermal springs near Carthage led Patricius, Bishop of Pertusa, to form correct suppositions respecting the cause of calorific increase in the interior of the earth—p. [379].

The Rhodian Genius is the development of a physiological idea in a mythical garb. Difference of views concerning the necessity and nonnecessity for the assumption of peculiar vital forces—pp. [386]–387. The difficulty of satisfactorily reducing the vital phenomena of the organism to physical and chemical laws is, principally, based on the complexity of the phenomena, on the multiplicity of forces acting simultaneously, as well as on the varying conditions of their activity. Definition of the expressions, animate and inanimate matter. Criteria of the miscent state ensuing upon separation, are the simple enunciation of a fact—pp. [387]–389.

Cinchona, or Quina-woods in the valleys of Loxa. First use of the fever-bark in Europe; the Vice-Queen Countess of Chinchon—pp. [390]–392.

Alpine vegetation of the Paramos. Ruins of ancient Peruvian causeways; they rise in the Paramo del Assuay almost to the height of Mont Blanc—p. [394]. Singular mode of communication, by a swimming courier—p. [399].

Descent to the Amazon River. Vegetation around Chamaya and Tomependa; red groves of Bougainvillæa. Rocky ridges which cross the Amazon River. Cataracts. Narrows of the Pongo de Manseriche, in which the mighty stream, measured by La Condamine, is hardly 160 feet broad. Fall of the rocky dam of Rentema, which for several hours, laid bare the bed of the river, to the terror of the inhabitants on its banks—p. [401].

Passage across the Andes chain, where it is intersected by the magnetic equator. Ammonites of nearly 15 inches, Echini and Isocardia of the chalk-formation, collected between Guambos and Montan, nearly 12,800 feet above the sea. Rich silver-mines of Chota. The picturesque, tower-like Cerro de Gualgayoc. An enormous mass of filamentous virgin silver in the Pampa de Navar. A treasure of virgin gold, twined round with filamentous silver, in the shell-field (Choropampa), so named on account of the numerous fossils. Outbursts of silver and gold ores in the chalk-formations. The little mountain-town of Micuipampa lies 11,873 feet above the sea—pp. [402]–405.

Across the mountain wilderness of the Paramo de Yanaguanga the traveller descends into the beautiful embosomed valley or rather Plateau of Caxamarca (almost at an equal altitude with the city of Quito). Warm baths of the Inca. Ruins of Atahuallpa’s palace, inhabited by his indigent descendants, the family of Astorpilca. Belief entertained there, in the existence of subterranean golden gardens of the Inca; said to be situated in the lovely valley of Yucay, under the Temple of the Sun at Cuzco, and at many other points. Conversation with the son of the Curaca Astorpilca. The room is still shown in which the unfortunate Atahuallpa was kept prisoner for nine months, from the November of 1532; also the wall on which he made a mark to indicate the height to which he would cause the room to be filled with gold, if his persecutors would set him free. Account of the prince’s execution on the 29th of August, 1533, and remarks on the so-called “indelible blood stain” on a stone slab before the altar in the chapel of the city prison—pp. [406]–414. How the hope in a restoration of the Inca empire, also indulged in by Raleigh, has been maintained among the natives. Causes of this fanciful belief—p. [414].

Journey from Caxamarca to the sea-coast. Passage across the Cordilleras through the Altos de Guangamarca. The often disappointed hope of enjoying the sight of the Pacific from the crest of the Andes, at last gratified, at a height of 9380 feet—pp. [415]–420.

On the origin of the name borne by the Andes Chain p. [421].

Epoch of the introduction of Cinchona (Peruvian) bark into Europe—p. [422].

Ruins of the Inca’s causeways and fortified dwellings; Aposentos de Mulalo, Fortaleza del Cañar, Inti-Guaycu—p. [423].

On the ancient civilization of the Chibchas or Muyscas of New Granada—p. [425]. Age of the culture of the potato and banana—p. [427]. Etymology of the word Cundinamarca, corrupted from Cundirumarca, and which, in the first years of republican independence, designated the whole country of New Granada—p. [427].

Chronometric connection of the city of Quito with Tomependa, on the upper course of the Amazon River, and the Callao de Lima, the position of which was accurately determined by the transit of Mercury on the 9th of November, 1802—p. [428].

On the tedious court ceremonies. of the Incas. Atahuallpa’s imprisonment and unavailing ransom—p. [429].

Free-thinking of the Inca Huayna Capac. Philosophical doubts on the official worship of the sun, and obstacles to the diffusion of knowledge among the lower and poorer classes of people, according to the testimony of Padre Blas Valera—p. [431].

Raleigh’s project for the restoration of the Inca dynasty under English protection, which should be granted for an annual tribute of several hundred thousand pounds—p. [432].

Columbus’ earliest evidence of the existence of the Pacific. It was first seen on the 25th of September, 1513, by Vasco Nunez de Balboa, and first navigated by Alonso Martin de Don Benito—p. [432].

On the possibility of constructing an Oceanic canal through the isthmus of Panama (with fewer locks than the Caledonian Canal). Points, the exploration of which has been hitherto totally neglected—p. [435].

Determination of the longitude of Lima—p. [435].