On one side is Spider-Man. On the other are the Rhino, the Vulture, the Shocker, Tombstone, Electro, Mysterio and a lethal legion of his deadliest foes - all in the employ of the master planner himsel
A new virus descended on the human species in 2019 wreaking unprecedented havoc. Finding out where it came from and how it first jumped into people is an urgent priority, but early expectations that t
The development of Charles Darwin's views on evolution by natural selection has fascinated biologists since the 1859 publication of his landmark text On The Origin of Species. His experiences, observations and reflections during and after his pivotal journey on the Beagle during 1831–36 were of critical importance. Darwin was not, however, a man to be rushed. While his autobiography claims that the framework of his theory was laid down by 1839, its first outline sketch did not emerge until 1842. That essay was heavily edited, with many insertions and erasures. It formed the vital kernel of his more expansive but also unpolished and unpublished essay of 1844. Following careful editing by his son Francis, both essays were published in 1909, and are reproduced here. Reading these side by side, and together with the Origin, permits us to scrutinise selection and evolution truly in action.
This sixth edition of The Origin of Species was published in 1876. It is the last edition on which Darwin himself worked before his death in 1882, and offers a useful complement to the 2009 scholarly edition, edited by Jim Endersby and published by Cambridge University Press in Darwin's bicentennial year. The sixth edition contains a 'historical sketch' in which Darwin reviews the many works by eminent European and American scientists – beginning with Lamarck in 1801 – in which ideas of evolutionary species change and of natural selection were touched on but not developed. This edition, like all from the second onwards, contains the words 'by the Creator', controversially added to the famous last sentence in the book: 'There is grandeur in this view of life, with its several powers, having been breathed by the Creator into a few forms or into one...'
The conflict between creationists and evolutionists has raged ever since the publication of On the Origin of Species in 1859. And yet, even as generations of Americans have fought and re-fought the sa
There is long-standing disagreement among systematists about how to divide biodiversity into species. Over twenty different species concepts are used to group organisms, according to criteria as diverse as morphological or molecular similarity, interbreeding and genealogical relationships. This, combined with the implications of evolutionary biology, raises the worry that either there is no single kind of species, or that species are not real. This book surveys the history of thinking about species from Aristotle to modern systematics in order to understand the origin of the problem, and advocates a solution based on the idea of the division of conceptual labor, whereby species concepts function in different ways - theoretically and operationally. It also considers related topics such as individuality and the metaphysics of evolution, and how scientific terms get their meaning. This important addition to the current debate will be essential for philosophers and historians of science, a
There is long-standing disagreement among systematists about how to divide biodiversity into species. Over twenty different species concepts are used to group organisms, according to criteria as diverse as morphological or molecular similarity, interbreeding and genealogical relationships. This, combined with the implications of evolutionary biology, raises the worry that either there is no single kind of species, or that species are not real. This book surveys the history of thinking about species from Aristotle to modern systematics in order to understand the origin of the problem, and advocates a solution based on the idea of the division of conceptual labor, whereby species concepts function in different ways - theoretically and operationally. It also considers related topics such as individuality and the metaphysics of evolution, and how scientific terms get their meaning. This important addition to the current debate will be essential for philosophers and historians of science, a
After the publication of On the Origin of Species in 1859 Darwin became fascinated with the potential for botanical experiments to provide evidence for the process of evolution. First published in 1877, this volume is based on a series of papers concerning heterostylous plants (species which produce different types of flowers) originally published in the Journal of the Proceedings of the Linnaen Society in 1862. Linnaeus had divided the sexual relations of flowers into four groups, which Darwin uses as the structure for this volume. Darwin examines in detail plants which produce different flower forms, presenting his conclusions in terms of adaptive evolution and so providing the first functional interpretation of heterostyly. He demonstrates that these plants are adapted for cross-fertilisation, not self-fertilisation as was widely believed. The concepts which Darwin introduces in this volume continue to provide the basis for research into plant reproductive biology.
The work of Nickolay Ivanovich Vavilov has formed the basis of much of the study of plant genetic resources that is carried out. In recognition of his contribution to plant science, and to commemorate the centenary of his birth, a collection of all of Vavgilov's works on the origin and geography of cultivated plant species was published in Russian in 1987. This English translation sees the publication of these seminal papers in their original form, but not original language, for the first time. The structure of the book, with papers arranged in chronological order from 1920 to 1940, provides a unique opportunity to retrace both the development Vavilov's theories on cultivated plants and his gradual creation of a definite terminology. the book will be of great interest to all those concerned with the development of cultivated plant species, not only in terms of the history of this discipline and its status, but also its future direction.
English anatomist and biologist Richard Owen (1804–92), who in 1842 coined the word 'dinosaur', published this book in 1859, the year of On the Origin of Species. He reviews ancient and recent studies of mammals in Western science before going on to present his own updated categorisation of the class. Owen's eye for detail and range of scholarship are evident in this work, which is an extensive catalogue of mammals based on biological, geographical and anatomical characteristics. It incorporates, among other things, detailed classifications and sub-classifications of genus based on dental structures, food habits and cerebra. Owen's prose is lucid and precise and his investigations scrupulous, demonstrating the commitment that led him to become one of the foremost anatomists of his time. An appendix reveals Owen's views on the hotly debated theories of transmutation and extinction proposed by scientists such as Lamarck, Lyell and Darwin.
Initially published by the Linnean Society, this 1865 essay was Darwin's first foray into the study of climbing plants. He was inspired to produce this work by a paper on the tendrilled Cucurbitacean plant by American botanist Asa Gray, with whom he had a firm intellectual friendship. Darwin examines in detail those plants which climb using a twisting stem, such as the hop; leaf-climbers, such as the clematis; tendrilled plants such as the passion flower; and hook and root climbers such as ivy. The conclusions reached by his study are presented in terms of the adaptations of various species to their environments, a continuation of the theories that Darwin had propounded in his On the Origin of the Species six years earlier. His passion for the design of the plants and fascination with the diversity of their powers of movement are clear in this accessible example of the process of evolution.
In this investigation of orchids, first published in 1862, Darwin expands on a point made in On the Origin of Species that he felt required further explanation, namely that he believes it to be 'a universal law of nature that organic beings require an occasional cross with another individual'. Darwin explains the method by which orchids are fertilised by insects, and argues that the intricate structure of their flowers evolved to favour cross pollination because of its advantages to the species. The book is written in Darwin's usual precise and elegant style, accessible despite its intricate detail. It includes a brief explanation of botanical terms and is illustrated with 34 woodcuts.
In On the Origin of Species (1859), Charles Darwin presented his evidence for evolution and natural selection as its mechanism. He drew upon his earliest data gathered during his voyage on the HMS Bea
Charles Darwin's On the Origin of Species is unquestionably one of the chief landmarks in biology. The Origin (as it is widely known) was literally only an abstract of the manuscript Darwin had originally intended to complete and publish as the formal presentation of his views on evolution. Compared with the Origin, his original long manuscript work on Natural Selection, which is presented here and made available for the first time in printed form, has more abundant examples and illustrations of Darwin's argument, plus an extensive citation of sources.
Baden Powell (1796–1860) was a mathematician who held the Savilian Chair of Geometry at Oxford, and was also a priest in the Church of England. He was a defender of the claims of new scientific discoveries in the face of Christian orthodoxy well before Darwin published the theory of evolution, and drew a clear distinction in his thinking and writing between moral and physical phenomena, as being independent of each other and the fields of completely different study. Darwin himself wrote, in the 'Historical Sketch' at the beginning of the third edition of On the Origin of Species, 'The 'Philosophy of Creation' has been treated in a masterly manner by the Rev. Baden Powell, in his Essays on the Unity of Worlds, 1855. Nothing can be more striking than the manner in which he shows that the introduction of new species is 'a regular, not a casual phenomenon'.'
The father of evolution imbibed history with his controversial book On the Origin of Species. As a young scientist studying natural history, Charles Darwin set out on theHMS Beagle for a five-year voy