Search This Blog

Thursday, May 23, 2019

Edward Drinker Cope

From Wikipedia, the free encyclopedia

Edward Drinker Cope
B & W photo/bust portrait of Edward Drinker Cope, paleontologist, c. 1985, in middle age with grey hair, mustache and chin puff; wearing a dark coat, soft bow tie and a slight smile.
BornJuly 28, 1840
DiedApril 12, 1897 (aged 56)
Philadelphia, Pennsylvania, U.S.
CitizenshipAmerican
Awards
Scientific career
FieldsPaleontology, zoology, herpetology

Edward Drinker Cope (July 28, 1840 – April 12, 1897) was an American paleontologist and comparative anatomist, as well as a noted herpetologist and ichthyologist. He was a founder of the Neo-Lamarckism school of thought. Born to a wealthy Quaker family, Cope distinguished himself as a child prodigy interested in science; he published his first scientific paper at the age of 19. Though his father tried to raise Cope as a gentleman farmer, he eventually acquiesced to his son's scientific aspirations. Cope married his cousin and had one child; the family moved from Philadelphia to Haddonfield, New Jersey, although Cope would maintain a residence and museum in Philadelphia in his later years.

Cope had little formal scientific training, and he eschewed a teaching position for field work. He made regular trips to the American West, prospecting in the 1870s and 1880s, often as a member of United States Geological Survey teams. A personal feud between Cope and paleontologist Othniel Charles Marsh led to a period of intense fossil-finding competition now known as the Bone Wars. Cope's financial fortunes soured after failed mining ventures in the 1880s, forcing him to sell off much of his fossil collection. He experienced a resurgence in his career toward the end of his life before dying on April 12, 1897.

Though Cope's scientific pursuits nearly bankrupted him, his contributions helped to define the field of American paleontology. He was a prodigious writer, with 1,400 papers published over his lifetime, although his rivals debated the accuracy of his rapidly published works. He discovered, described, and named more than 1,000 vertebrate species, including hundreds of fishes and dozens of dinosaurs. His proposal for the origin of mammalian molars is notable among his theoretical contributions. "Cope's rule", however, the hypothesis that mammalian lineages gradually grow larger over geologic time, while named after him, is "neither explicit nor implicit" in his work.

Biography

Early life

Loose, childish cursive handwriting. At the bottom of the page is a sketch of a whale surfacing from the water. The text reads: "... One came close alongside the vessel. The captain ran and got a harpoon to catch one, but it was too late they had all swam away".
Cope was taken on a sea trip to Boston one week after his seventh birthday. His notebook survives, including this page, and contains notes and drawings of his travels.
 
Edward Drinker Cope was born on July 28, 1840, the eldest son of Alfred and Hanna Cope. The death of his mother when he was three years old seemed to have had little effect on young Edward, as he mentioned in his letters that he had no recollection of her. His stepmother, Rebecca Biddle, filled the maternal role; Cope referred to her warmly, as well as his younger stepbrother, James Biddle Cope. Alfred, an orthodox member of the Religious Society of Friends or Quakers, operated a lucrative shipping business started by his father, Thomas P. Cope, in 1821. He was a philanthropist who gave money to the Society of Friends, the Philadelphia Zoological Gardens, and the Institute for Colored Youth.

Edward was born and raised in a large stone house called "Fairfield", whose location is now within the boundaries of Philadelphia. The 8 acres (3.2 ha) of pristine and exotic gardens of the house offered a landscape that Edward was able to explore. The Copes began teaching their children to read and write at a very young age, and took Edward on trips across New England and to museums, zoos, and gardens. Cope's interest in animals became apparent at a young age, as did his natural artistic ability.

Alfred intended to give his son the same education he himself had received. At age nine, Edward was sent to a day school in Philadelphia and in 1853 at the age of 12, Edward was sent to the Friends' Boarding School at Westtown, near West Chester, Pennsylvania. The school was founded in 1799 with fundraising by members of the Society of Friends (Quakers), and provided much of the Cope family's education. The prestigious school was expensive, costing Alfred $500 in tuition each year, and in his first year, Edward studied algebra, chemistry, scripture, physiology, grammar, astronomy, and Latin. Edward's letters home requesting a larger allowance show he was able to manipulate his father, and he was, according to author and Cope biographer Jane Davidson, "a bit of a spoiled brat". His letters suggest he was lonely at the school—it was the first time he had been away from his home for an extended period. Otherwise, Edward's studies progressed much like a typical boy—he consistently had "less than perfect" or "not quite satisfactory" marks for conduct from his teachers, and did not work hard on his penmanship lessons, which may have contributed to his often illegible handwriting as an adult.

Edward returned to Westtown in 1855, accompanied by two of his sisters. Biology began to interest him more that year, and he studied natural history texts in his spare time. While at the school, he frequently visited the Academy of Natural Sciences. Edward often obtained bad marks due to quarreling and bad conduct. His letters to his father show he chafed at farm work and betrayed flashes of the temper for which he would later become well known. After sending Edward back to the farm for summer break in 1854 and 1855, Alfred did not return Edward to school after spring 1856. Instead, Alfred attempted to turn his son into a gentleman farmer, which he considered a wholesome profession that would yield enough profit to lead a comfortable life, and improve the undersized Edward's health. Until 1863, Cope's letters to his father continually expressed his yearning for a more professional scientific career than that of a farmer, which he called "dreadfully boring".

While working on farms, Edward continued his education on his own. In 1858, he began working part-time at the Academy of Natural Sciences, reclassifying and cataloguing specimens, and published his first series of research results in January 1859. Cope began taking French and German classes with a former Westtown teacher. Though Alfred resisted his son's pursuit of a science career, he paid for his son's private studies. Instead of working the farm his father bought for him, Edward rented out the land and used the income to further his scientific endeavors.

Alfred finally gave in to Edward's wishes and paid for university classes. Cope attended the University of Pennsylvania in the 1861 and/or 1862 academic years, studying comparative anatomy under Joseph Leidy, one of the most influential anatomists and paleontologists at the time. Cope asked his father to pay for a tutor in both German and French, "not so much for their own sake," wrote Edward, "but as for their value in enabling me to read their books of a literary or scientific character." During this period, he had a job recataloging the herpetological collection at the Academy of Natural Sciences, where he became a member at Leidy's urging. Cope's job lasted two years and he visited the Smithsonian Institution on occasion, where he became acquainted with Spencer Baird, who was an expert in the fields of ornithology and ichthyology. In 1861, he published his first paper on Salamandridae classification; over the next five years he published primarily on reptiles and amphibians. Cope's membership in the Academy of Natural Sciences and American Philosophical Society gave him outlets to publish and announce his work; many of his early paleontological works were published by the Philosophical Society.

European travels

In 1863–1864 during the American Civil War, Cope traveled through Europe, taking the opportunity to visit the most esteemed museums and societies of the time. Initially, he seemed interested in helping out at a field hospital, but in letters to his father later on in the war, this aspiration seemed to disappear; instead he considered working in the American South to assist freed African Americans. Davidson suggests Cope's correspondence with Leidy and Ferdinand Hayden, who worked as field surgeons during the war, might have informed Cope of the horrors of the occupation. Edward was involved in a love affair; his father did not approve. Whether Edward or the unnamed woman (whom he at one point intended to marry) broke off the relationship is unknown, but he took the breakup poorly. Biographer and paleontologist Henry Fairfield Osborn attributed Edward's sudden departure for Europe as a method of keeping him from being drafted into the Civil War. Cope did write to his father from London on February 11, 1864, "I shall get home in time to catch and be caught by the new draft. I shall not be sorry for this, as I know certain persons who would be mean enough to say that I have gone to Europe to avoid the war." Eventually, Cope took the pragmatic approach and waited out the conflict. He may have suffered from mild depression during this period, and often complained of boredom.

Despite his torpor, Edward proceeded with his tour of Europe, and met with some of the most highly esteemed scientists of the world during his travels through France, Germany, Great Britain, Ireland, Austria, Italy, and Eastern Europe, most likely with introductory letters from Leidy and Spencer Baird. In the winter of 1863, Edward met Othniel Charles Marsh while in Berlin. Marsh, age 32, was attending the University of Berlin. He held two university degrees in comparison to Edward's lack of formal schooling past 16, but Edward had written 37 scientific papers in comparison to Marsh's two published works. While they would later become rivals, on meeting, the two men appeared to take a liking to each other. Marsh led Edward on a tour of the city, and they stayed together for days. After Edward left Berlin, the two maintained correspondence, exchanging manuscripts, fossils, and photographs. Edward burned many of his journals and letters from Europe upon his return to the United States. Friends intervened and stopped Cope from destroying some of his drawings and notes, in what author Url Lanham deemed a "partial suicide".

Family and early career

When Cope returned to Philadelphia in 1864, his family made every effort to secure him a teaching post as the Professor of Zoology at Haverford College, a small Quaker school where the family had philanthropic ties. The college awarded him an honorary master's degree so he could have the position. Cope even began to think about marriage and consulted his father in the matter, telling him of the girl he would like to marry: "an amiable woman, not over sensitive, with considerable energy, and especially one inclined to be serious and not inclined to frivolity and display—the more truly Christian of course the better—seems to be the most practically the most suitable for me, though intellect and accomplishments have more charm." Cope thought of Annie Pim, a member of the Society of Friends, as less a lover than companion, declaring, "her amiability and domestic qualities generally, her capability of taking care of a house, etc., as well as her steady seriousness weigh far more with me than any of the traits which form the theme of poets!" Cope's family approved of his choice, and the marriage took place in July 1865 at Pim's farmhouse in Chester County, Pennsylvania. The two had a single daughter, Julia Biddle Cope, born June 10, 1866. Cope's return to the United States also marked an expansion of his scientific studies; in 1864, he described several fishes, a whale, and the amphibian Amphibamus grandiceps (his first paleontological contribution.)

During the period between 1866 and 1867, Cope went on trips to western parts of the country. He related to his father his scientific experiences; to his daughter he sent descriptions of animal life as part of her education. Cope found educating his students at Haverford "a pleasure", but wrote to his father that he "could not get any work done." He resigned from his position at Haverford and moved his family to Haddonfield, in part to be closer to the fossil beds of western New Jersey. Due to the time-consuming nature of his Haverford position, Cope had not had time to attend to his farm and had let it out to others, but eventually found he was in need of more money to fuel his scientific habits. Pleading with his father for money to pursue his career, he finally sold the farm in 1869. Alfred apparently did not press his son to continue farming, and Edward focused on his scientific career. He continued his continental travels, including trips to Virginia, Tennessee, and North Carolina. He visited caves across the region. He stopped these cave explorations after an 1871 trip to the Wyandotte Caves in Indiana, but remained interested in the subject. Cope had visited Haddonfield many times in the 1860s, paying periodic visits to the marl pits. The fossils he found in these pits became the focus of several papers, including a description in 1868 of Elasmosaurus platyurus and Laelaps. Marsh accompanied him on one of these excursions. Cope's proximity to the beds after moving to Haddonfield made more frequent trips possible. The Copes lived comfortably in a frame house backed by an apple orchard. Two maids tended the estate, which entertained a number of guests. Cope's only concern was for more money to spend on his scientific work.

The 1870s were the golden years of Cope's career, marked by his most prominent discoveries and rapid flow of publications. Among his descriptions were the therapsid Lystrosaurus (1870), the archosauromorph Champsosaurus (1876), and the sauropod Amphicoelias (1878), possibly the largest dinosaur ever discovered. In the period of one year, from 1879 to 1880, Cope published 76 papers based on his travels through New Mexico and Colorado, and on the findings of his collectors in Texas, Kansas, Oregon, Colorado, Wyoming, and Utah. During the peak years, Cope published around 25 reports and preliminary observations each year. The hurried publications led to errors in interpretation and naming—many of his scientific names were later canceled or withdrawn. In comparison, Marsh wrote and published less frequently and more succinctly—his works appearance in the widespread American Journal of Science led to faster reception abroad, and subsequently Marsh's reputation grew more rapidly than Cope's.

End section of a four-story stone terraced building. Two adjacent doors are at center, each with a short flight of stairs leading up from the street to the first level. Either side of the doors, at left and right, the building has two rounded tower-like sections, each with nine large sash windows (three on each level). Four more large windows are at center, above the doors. The uppermost (attic) level has four smaller windows protruding from the roof with architectural feature. At street level, grilled skylights illuminate basement rooms.
Cope's Pine Street residence
 
In autumn 1871, Cope began prospecting farther west to the fossil fields of Kansas. Leidy and Marsh had been to the region earlier, and Cope employed one of Marsh's guides, Benjamin Mudge, who was in want of a job. Cope's companion Charles Sternberg described the lack of water and good food available to Cope and his helpers on these expeditions. Cope would suffer from a "severe attack of nightmare" in which "every animal of which we had found trace during the day played with him at night ... sometimes he would lose half the night in this exhausting slumber." Nevertheless, Cope continued to lead the party from sunrise to sunset, sending letters to his wife and child describing his finds. The severe desert conditions and Cope's habit of overworking himself till he was bedridden caught up with him, and in 1872, he broke down from exhaustion. Cope maintained a regular pattern of summers spent prospecting and winters writing up his findings from 1871 to 1879.

Throughout the decade, Cope traveled across the West, exploring rocks of the Eocene in 1872 and the Titanothere Beds of Colorado in 1873. In 1874, Cope was employed with the Wheeler survey, a group of surveys led by George Montague Wheeler that mapped parts of the United States west of the 100th meridian. The survey traveled through New Mexico, whose Puerco formations, he wrote to his father, provided "the most important find in geology I have ever made". The New Mexico bluffs contained millions of years of formation and subsequent deformation, and were in an area which had not been visited by Leidy or Marsh. Being part of the survey had other advantages; Cope was able to draw on fort commissaries and defray publishing costs. While there was no salary, his findings would be published in the annual reports the surveys printed. Cope brought Annie and Julia along on one such survey, and rented a house for them at Fort Bridger, but he spent more of his own money on these survey trips than he would have liked.

Alfred died December 4, 1875, and left Edward with an inheritance of nearly a quarter of a million dollars. Alfred's death was a blow to Cope; his father was a constant confidant. The same year marked a suspension of much of Cope's field work and a new emphasis on writing up discoveries of the previous years. His chief publication of the time, The Vertebrata of the Cretaceous Formations of the West, was a collection of 303 pages and 54 illustration plates. The memoir summarized his experiences prospecting in New Jersey and Kansas. Cope now had the finances to hire multiple teams to search for fossils for him year-round and he advised the Philadelphia Centennial Exhibition on their fossil displays. Cope's studies of marine reptiles of Kansas closed in 1876, opening a new focus on terrestrial reptiles. The same year, Cope moved from Haddonfield to 2100 and 2102 Pine Street in Philadelphia. He converted one of the two houses into a museum where he stored his growing collection of fossils. Cope's expeditions took him across Kansas, Colorado, New Mexico, Wyoming, and Montana. His initial journey into the Clarendon beds of Upper Miocene and Lower Pliocene of Texas led to an affiliation with the Geological Survey of Texas. Cope's papers on the region constitute some of his most important paleontological contributions. In 1877, he purchased half the rights to the American Naturalist to publish the papers he produced at a rate so high, Marsh questioned their dating.

Cope returned to Europe in August 1878 in response to an invitation to join the British Association for the Advancement of Science's Dublin meeting. He was warmly welcomed in England and France, and met with the distinguished paleontologists and archeologists of the period. Marsh's attempts to sully Cope's reputation had made little impact on anyone save paleontologist Thomas Henry Huxley, who according to Osborn, "alone treated [Cope] with coolness". Following the Dublin meeting, Cope spent two days with the French Association for the Advancement of Science. At each gathering, Cope exhibited dinosaur restorations by Philadelphia colleague John A. Ryder and various charts and plates from geological surveys of the 1870s led by Ferdinand Vandeveer Hayden. He returned to London on October 12, meeting with anatomist Richard Owen, ichthyologist Albert Günther, and paleontologist H. G. Seeley. While in Europe, Cope purchased a great collection of fossils from Argentina. Cope never found time to describe the collection and many of the boxes remained unopened until his death.

Bone Wars

Schools of fish mill around a large sea creature; the animal's long neck twists around itself. Its arrow-shaped head is lined with needle-like teeth that grasp a fish. Its body has four small flippers, which lead back to a shorter tail.
Illustration plate to Cope's 1870 description of several reptiles, including an improperly reconstructed Elasmosaurus (foreground)
 
Cope's relations with Marsh turned into a competition for fossils between the two, known today as the Bone Wars. The conflict's seeds began upon the men's return to the United States in the 1860s, although Cope named Colosteus marshii for Marsh in 1867, and Marsh returned the favor, naming Mosasaurus copeanus for Cope in 1869. Cope introduced his colleague to the marl pit owner Albert Vorhees when the two visited the site. Marsh went behind Cope's back and made a private agreement with Vorhees: any fossils that Vorhees's men found were sent back to Marsh at New Haven. When Marsh was at Haddonfield examining one of Cope's fossil finds—a complete skeleton of a large aquatic plesiosaur, Elasmosaurus, that had four flippers and a long neck—he commented that the fossil's head was on the wrong end, evidently stating that Cope had put the skull at the end of the vertebrae of the tail. Cope was outraged and the two argued for some time until they agreed to have Leidy examine the bones and determine who was right. Leidy came, picked up the head of the fossil and put it on the other end. Cope was horrified since he had already published a paper on the fossil with the error at the American Philosophical Society. He immediately tried to buy back the copies, but some remained with their buyers (Marsh and Leidy kept theirs). The whole ordeal might have passed easily enough had Leidy not exposed the cover-up at the next society meeting, not to alienate Cope, but only in response to Cope's brief statement where he never admitted he was wrong. Cope and Marsh would never talk to each other amicably again, and by 1873, open hostility had broken out between them.

The rivalry between the two increased towards the latter half of the 1870s. In 1877, Marsh received a letter from Arthur Lakes, a schoolteacher in Golden, Colorado. Lakes had been hiking in the mountains near the town of Morrison with his friend, H. C. Beckwith, looking for fossilized leaves in the Dakota sandstone. Instead, the pair found large bones embedded in the rock. Lakes wrote that the bones were "apparently a vertebra and a humerus bone of some gigantic saurian." While Lakes sent Marsh some 1,500 pounds of bone, he also sent Cope some of the specimens. Marsh published his finds first, and having been paid $100 for the finds Lakes wrote to Cope that the samples should be forwarded to Marsh. Cope was offended by the slight. Meanwhile, Cope received bones from school superintendent O.W. Lucas in March 1877 from Canon City; the remains were of a dinosaur even bigger than Lakes' that Marsh had described.

Word that Lakes had notified Cope of his finds galvanized Marsh into action. When Marsh heard from Union Pacific Railroad workers W.E. Carlin and W.H. Reed about a vast boneyard northwest of Laramie in Como Bluff, Marsh sent his agent, Samuel Wendell Williston, to take charge of the digging. Cope, in response, learned of Carlin and Reed's discoveries and sent his own men to find bones in the area. The two scientists attempted to sabotage each other's progress. Cope was described as a genius and what Marsh lacked in intelligence, he easily made up for in connections—Marsh's uncle was George Peabody, a rich banker who supported Marsh with money, and a secure position at the Peabody Museum. Marsh lobbied John Wesley Powell to act against Cope and attempted to persuade Hayden to "muzzle" Cope's publishing. Both men tried to spy on the other's whereabouts and attempted to offer their collectors more money in the hopes of recruiting them to their own side. Cope was able to recruit David Baldwin in New Mexico and Frank Williston in Wyoming from Marsh. Cope and Marsh were extremely secretive as to the source of their fossils. When Henry Fairfield Osborn, at the time a student at Princeton, visited Cope to ask where to travel to look for fossils in the West, Cope politely refused to answer.

When Cope arrived back in the United States after his tour of Europe in 1878, he had nearly two years of fossil findings from Lucas. Among these dinosaurs was Camarasaurus, one of the most recognizable dinosaur recreations of the time. The summer of 1879 took Cope to Salt Lake City, San Francisco, and north to Oregon, where he was amazed at the rich flora and the blueness of the Pacific Ocean. In 1879, the United States Congress consolidated the various government survey teams into the United States Geological Survey with Clarence King as its leader. This was discouraging to Cope because King named Marsh, an old college friend, as the chief paleontologist. The period of Cope's and Marsh's paleontological digs in the American West spanned from 1877 to 1892, by which time both men exhausted much of their financial resources.

Later years

Top, side, bottom and close-up views of a fossil skull. The skull has a flat top with a short snout and prominent canines.
Illustration plate from Cope's The Vertebrata of the Tertiary Formations of the Far West, featuring the skulls of Canidae from the "John Day Epoch" in Oregon
 
The 1880s proved disastrous for Cope. Marsh's close association with the Geological Survey gave him the resources to employ 54 staff members over the course of ten years. His teaching position at Yale meant he had guaranteed access to the American Journal of Science for publication. Cope had his interest in the Naturalist, but it drained him of funds. After Hayden was removed from the survey, Cope lost his source of government funding. His fortune was not enough to support his rivalry, so Cope invested in mining. Most of his properties were silver mines in New Mexico; one mine yielded an ore vein worth $3 million in silver chloride. Cope visited the mines each summer from 1881 to 1885, taking the opportunity to supervise or collect other minerals. For a while he made good money, but the mines stopped producing and by 1886 he had to give up his now-worthless stocks. The same year he received a teaching position at the University of Pennsylvania. He continued to travel west, but realized he would not be able to best Marsh in cornering the market for bones; he had to release the collectors he had hired and sell his collections. During this period, he published 40 to 75 papers each year. With the failure of his mines, Cope began searching for a job, but was turned down at the Smithsonian and American Museum of Natural History. He turned to giving lectures for hire and writing magazine articles. Each year, he lobbied Congress for an appropriation with which to finish his work on "Cope's Bible", a volume on Tertiary vertebrates, but was continually turned down. Rather than work with Powell and the survey, Cope tried to inflame sentiment against them.

At Marsh's urging, Powell pushed for Cope to return specimens he had unearthed during his employment under the government surveys. This was an outrage to Cope, who had used his own money while working as a volunteer. In response, Cope went to the editor of the New York Herald and promised a scandalous headline. Since 1885, Cope had kept an elaborate journal of mistakes and misdeeds that both Marsh and Powell had committed over the years. From scientific errors to publishing mistakes, he had them written down in a journal he kept in the bottom drawer of his Pine Street desk. Cope sought out Marsh's assistants, who complained of being denied access and credit by their employer and of being chronically underpaid. Reporter William Hosea Ballou ran the first article on January 12, 1890, in what would become a series of newspaper debates between Marsh, Powell, and Cope. Cope attacked Marsh for plagiarism and financial mismanagement, and attacked Powell for his geological classification errors and misspending of government-allocated funds. Marsh and Powell published their own side of the story and, in the end, little changed. No congressional hearing was created to investigate Powell's alleged misallocation of funds, while Cope and Marsh were not held responsible for any mistakes. Indirectly, however, the attacks may have been influential in Marsh's fall from power in the survey. Due to pressure from Powell over bad press, Marsh was removed from his position for the government surveys. Cope's relations with the president of the University of Pennsylvania soured, and the entire funding for paleontology in the government surveys was pulled.

Cope took his sinking fortunes in stride. In writing to Osborn about the articles, he laughed at the outcome, saying, "It will now rest largely with you whether or not I am supposed to be a liar and am actuated by jealousy and disappointment. I think Marsh is impaled on the horns of Monoclonius sphenocerus." Cope was well aware of his enemies and was carefree enough to name a species after a combination of "Cope" and "hater", Anisonchus cophater. Through his years of financial hardship, he was able to continue publishing papers—his most productive years were 1884 and 1885, with 79 and 62 papers published, respectively. The 1880s marked the publication of two of the best-known fossil taxa described by Cope: the pelycosaur Edaphosaurus in 1882 and the early dinosaur Coelophysis in 1889. In 1889, he succeeded Leidy, who had died the previous year, as professor of zoology at the University of Pennsylvania. The small yearly stipend was enough for Cope's family to move back into one of the townhouses he had been forced to relinquish earlier.

In 1892, Cope (then 52 years old) was granted expense money for field work from the Texas Geological Survey.[90] With his finances improved, he was able to publish a massive work on the Batrachians of North America, which was the most detailed analysis and organization of the continent's frogs and amphibians ever mastered, and the 1,115-page The Crocodilians Lizards and Snakes of North America. In the 1890s, his publication rate increased to an average of 43 articles a year. His final expedition to the West took place in 1894, when he prospected for dinosaurs in South Dakota and visited sites in Texas and Oklahoma. The same year, Julia was married to William H. Collins, a Haverford astronomy professor. The couple's ages—Julia was 28 and the groom 35—were past the conventions of Victorian marriage. After their European honeymoon, the couple returned to Haverford. While Annie moved to Haverford, as well, Cope did not. His official reason was the long commute and late lectures he gave in Philadelphia. In private correspondence, however, Osborn wrote that the two had essentially separated, though they remained on amiable terms.

Cope sold his collections to the American Museum of Natural History in 1895; his set of 10,000 American fossil mammals sold for $32,000, lower than Cope's asking price of $50,000. The purchase was financed by the donations from New York's high society. Cope sold three other collections for $29,000. While his collection contained more than 13,000 specimens, Cope's fossil hoard was still much smaller than Marsh's collection, valued at over a million dollars. The University of Pennsylvania bought part of Cope's ethnological artifact collection for $5,500. The Academy of Natural Sciences, Philadelphia's foremost museum, did not bid on any of Cope's sales due to bad blood between Cope and the museum's leaders; as a result, many of Cope's major finds left the city. Cope's proceeds from the sales allowed him to rehire Sternberg to prospect for fossils on his behalf.

Death

Bright sunlight coming in through windows in the background show a long narrow room with a Victorian fireplace at left, and light fittings (center) hanging from the ceiling. A desk and chair are at center, with the desk piled high with papers, books and specimen boxes. Another desk, partially seen in the foreground, is similarly cluttered, as is a third desk in the background. Two book cabinets, at right and left, are filled, and have more books piled on top of them to the ceiling. An empty sofa is at right.
Cope's cluttered study in 1897: The Pine Street home was filled with Cope's papers, bones, stuffed and mounted animals, and specimens preserved in alcohol that covered his desks and an improvised shelf in his bathroom.
 
In 1896, Cope began suffering from a gastrointestinal illness he said was cystitis. His wife cared for him in Philadelphia when she was able; at other times, Cope's university secretary, Anna Brown, tended to him. Cope at this time lived in his Pine Street museum and rested on a cot surrounded by his fossil finds. Cope often prescribed himself medications, including large amounts of morphine, belladonna, and formalin, a substance based on formaldehyde used to preserve specimens. Osborn was horrified by Cope's actions and made arrangements for surgery, but the plans were put on hold after a temporary improvement in Cope's health. Cope went to Virginia looking for fossils, became ill again, and returned to his home very weak. Osborn visited Cope on April 5, inquiring about Cope's health, but the sick paleontologist pressed his friend for his views on the origin of mammals. Word of Cope's illness spread, and he was visited by friends and colleagues; even in a feverish condition Cope delivered lectures from his bed. Cope died on April 12, 1897, 16 weeks short of his 57th birthday.

Sternberg, still prospecting for Cope that spring, was woken by a liveryman who relayed word from Annie that Cope had died three days earlier. Sternberg wrote in his memoirs, "I had lost friends before, and I had known what it was to bury my own dead, even my firstborn son, but I had never sorrowed more deeply than I did over the news." Cope's Quaker funeral consisted of six men: Osborn, his colleague William Berryman Scott, Cope's friend Persifor Frazer, son-in-law Collins, Horatio Wood, and Harrison Allen. The six sat around Cope's coffin among the fossils and Cope's pets, a tortoise and a Gila monster, for what Osborn called "a perfect Quaker silence ... an interminable length of time." Anticipating the quiet, Osborn had brought along a Bible and read an excerpt from the Book of Job, ending by saying, "These are the problems to which our friend devoted his life."

The coffin was loaded on a hearse and carried to a gathering at Fairfield; much of the gathering was spent in silence. After the coffin was removed, the assembled began talking. Frazer recalled that each person remembered Cope differently, and "Few men succeeded so well in concealing from anyone ... all the sides of his multiform character." Osborn, intending to follow the coffin to the graveyard, was instead pulled aside by Collins and taken to the reading of Cope's will—Osborn and Cope's brother-in-law John Garrett were named executors. Cope gave his family a choice of his books, with the remainder to be sold or donated to the University of Pennsylvania. After debts were handled, Cope left small bequests to friends and family—Anna Brown and Julia received $5000 each, while the remainder went to Annie. Cope's estate was valued at $75,327, not including additional revenue raised by sales of fossils to the American Museum of Natural History, for a total of $84,600. Some specimens preserved in alcohol made their way to the Academy of Natural Sciences, including a few Gordian worms.

Cope insisted through his will that no graveside service or burial be held; he had donated his body to science. He issued a final challenge to Marsh at his death: he had his skull donated to science so his brain could be measured, hoping his brain would be larger than that of his adversary; at the time, brain size was thought to be the true measure of intelligence. Marsh never accepted the challenge, and Cope's skull is reportedly still preserved at the University of Pennsylvania. His ashes were placed at the institute with those of Leidy, while his bones were extracted and kept in a locked drawer to be studied by anatomy students.

Osborn listed Cope's cause of death as uremic poisoning, combined with a large prostate, but the true cause of death is unknown. Many believed Cope had died of syphilis contracted from the women with whom he fraternized during his travels. In 1995, Davidson gained permission to have the skeleton examined by a medical doctor at the university. Dr. Morrie Kricun, a professor of radiology, concluded no evidence of bony syphilis was found on Cope's skeleton.

Public mentions of Cope's death were relatively slight. The Naturalist ran four photographs, a six-page obituary by editor J. S. Kingsley, and a two-page remembrance by Frazer. The National Academy of Sciences' official memoir was submitted years later and written by Osborn. The American Journal of Science devoted six paragraphs to Cope's passing, and incorrectly gave his age as 46. Cope was outlived by his rival Marsh, who was suffering poor health.

Evolution

As a young man, Cope read Charles Darwin's Voyage of a Naturalist, which had little effect on him. The only comment about Darwin's book recorded by Cope was that Darwin discussed "too much geology" from the account of his voyage. Due to his background in taxonomy and paleontology, Cope focused on evolution in terms of changing structure, rather than emphasizing geography and variation within populations as Darwin had. Over his lifetime, Cope's views on evolution shifted.

His original view, described in the paper "On the Origin of Genera" (1868), held that while Darwin's natural selection may affect the preservation of superficial characteristics in organisms, natural selection alone could not explain the formation of genera. Cope's suggested mechanism for this action was a "steady progressive development of organization" through what Cope termed "a continual crowding backward of the successive steps of individual development". In Cope's view, during embryological development, an organism could complete its growth with a new stage of development beyond its parents, taking it to a higher level of organization. Later individuals would inherit this new level of development—thus evolution was a continuous advance of organization, sometimes slowly and other times suddenly; this view is known as the law of acceleration.

Cope's beliefs later evolved to one with an increased emphasis on continual and utilitarian evolution with less involvement of a Creator. He became one of the founders of the Neo-Lamarckism school of thought, which holds that an individual can pass on traits acquired in its lifetime to offspring. Although the view has been shown incorrect, it was the prevalent theory among paleontologists in Cope's time. In 1887, Cope published his own "Origin of the Fittest: Essays in Evolution", detailing his views on the subject. He was a strong believer in the law of use and disuse—that an individual will slowly, over time, favor an anatomical part of its body so much that it will become stronger and larger as time progresses down the generations. The giraffe, for example, stretched its neck to reach taller trees and passed this acquired characteristic to its offspring in a developmental phase that is added to gestation in the womb.

Cope's Theology of Evolution (1887) argued that consciousness comes from the mind of the universe and governs evolution by directing animals to new goals. According to Sideris (2003), "[Cope] argued that organisms respond to changes in their environments by an exercise of choice. Consciousness itself, he maintained, was the principal force in evolution. Cope credited God with having built into evolution a life force that propelled organisms toward even higher levels of consciousness."

Personality and legacy

Black-and-white photograph of six men standing: All of them are well-dressed in suits and ties. Cope has short hair, mustache, and a small beard; in his hands he holds a wide-brimmed hat and some papers.
One of the last photographs taken of Cope (third from right), during his attendance at the 1896 American Association for the Advancement of Science meeting in Buffalo.
 
Julia assisted Osborn in writing a biography of her father, titled Cope: Master Naturalist. She would not comment on the name of the woman with whom her father had had an affair prior to his first European travel. Julia is believed to have burned any of the scandalous letters and journals Cope had kept, but many of his friends were able to give their recollections of the scandalous nature of some of Cope's unpublished routines. Charles R. Knight, a former friend called, "Cope's mouth the filthiest, from hearsay that in [Cope's] heyday no woman was safe within five miles of him." As Julia was the major financier behind The Master Naturalist, she wanted to keep her father's name in good standing and refused to comment on any misdeeds her father may have committed.

Cope was described by zoologist Henry Weed Fowler as "a man of medium height and build, but always impressive with his great energy and activity". To him, Fowler wrote, "[Cope] was both genial and always interesting, easily approachable, and both kindly and helpful." Cope's affability during visits to the Academy of Natural Sciences to compare specimens was later recalled by his colleague Witmer Stone: "I have often seen him busily engaged in such comparisons, all the while whistling whole passages from grand opera, or else counting the scales on the back of a lizard, while he conversed in a most amusing manner with some small street urchin who had drifted into the museum and was watching in awe with eyes and mouth wide open." His self-taught nature, however, meant that he was largely hostile to bureaucracy and politics. He had a famous temper; one friend called Cope a "militant paleontologist". Despite his faults, he was generally well liked by his contemporaries. American paleontologist Alfred Romer wrote that, "[Cope's] little slips from virtue were those we might make ourselves, were we bolder".

Cope was raised as a Quaker, and was taught that the Bible was literal truth. Although he never confronted his family about their religious views, Osborn writes that Cope was at least aware of the conflict between his scientific career and his religion. Osborn writes: "If Edward harbored intellectual doubts about the literalness of the Bible ... he did not express them in his letters to his family but there can be little question ... that he shared the intellectual unrest of the period." Lanham writes that Cope's religious fervor (which seems to have subsided after his father's death) was embarrassing to even his devout Quaker associates. Biographer Jane Davidson believes that Osborn overstated Cope's internal religious conflicts. She ascribes Cope's deference to his father's beliefs as an act of respect or a measure to retain his father's financial support. Frazer's reminiscences about his friend suggest Cope often told people what they wanted to hear, rather than his true views.

Shufeldt's 1915 book dedication to Cope describing him as a champion of racial purity.
 
Cope's views on human races would today be considered racist, and his beliefs were used by scientists of the time to justify imperialism. He believed that if, "a race was not white then it was inherently more ape-like". He was not opposed to blacks because of the color of their skin but their "degrading vices", believing that the "inferior Negro should go back to Africa." He did not blame blacks for their perceived "poor virtue", but wrote, "A vulture will always eat carrion when surrounded on all hands by every kind of cleaner food. It is the nature of the bird." Cope was against the modern view of women's rights, believing in the husband's role as protector; he was opposed to women's suffrage, as he felt they would be unduly influenced by their husbands.

In fewer than 40 years as a scientist, Cope published over 1,400 scientific papers, a record that stands to this day. These include three major volumes: On the Origin of Genera (1867), The Vertebrata of the Tertiary Formations of the West (1884) and "Essays in Evolution". He discovered a total of 56 new dinosaur species during the Bone Wars compared to Marsh's 80. Although Cope is today known as a herpetologist and paleontologist, his contributions extended to ichthyology, in which he catalogued 300 species of fishes over three decades. In total, he discovered and described over 1,000 species of fossil vertebrates and published 600 separate titles.

The salamander Dicamptodon copei Nussbaum, 1970, the dinosaur Drinker nisti Bakker et al., 1990, the lizards Alopoglossus copii Boulenger, 1885, Gambelia copeii (Yarrow, 1882), Plestiodon copei (Taylor, 1933), Sepsina copei Bocage, 1873,Sphaerodactylus copei Steindachner, 1867, the snakes Adelophis copei Dugès, 1879, Aspidura copei Günther, 1864, Cemophora coccinea copei Jan, 1863, Coniophanes imperialis copei Hartweg & J. Oliver, 1938, Dipsas copei Günther, 1872, Cope's gray treefrog Hyla chrysoscelis Cope, 1880, and the splash tetra genus Copella G.S. Myers, 1956 are among the many taxa named in honor of Cope. Currently, 21 fish species named copei are distributed among 11 families. Copeia is the journal of the American Society of Ichthyologists and Herpetologists (ASIH), founded in 1913 by John Treadwell Nichols. Cope's Pine Street home is recognized as a national landmark.

Cope named a species of Caribbean snake, Liophis juliae, in honor of his daughter Julia Cope Collins (1866–1959).

Paleobotany

From Wikipedia, the free encyclopedia

A leaf fossil of the European beech (Fagus sylvatica) from the late Pliocene of France, approximately three million years ago
 
Paleobotany, also spelled as palaeobotany (from the Greek words paleon = old and "botany", study of plants), is the branch of paleontology or paleobiology dealing with the recovery and identification of plant remains from geological contexts, and their use for the biological reconstruction of past environments (paleogeography), and both the evolutionary history of plants, with a bearing upon the evolution of life in general. A synonym is paleophytology. Paleobotany includes the study of terrestrial plant fossils, as well as the study of prehistoric marine photoautotrophs, such as photosynthetic algae, seaweeds or kelp. A closely related field is palynology, which is the study of fossilized and extant spores and pollen

Paleobotany is important in the reconstruction of ancient ecological systems and climate, known as paleoecology and paleoclimatology respectively; and is fundamental to the study of green plant development and evolution. Paleobotany has also become important to the field of archaeology, primarily for the use of phytoliths in relative dating and in paleoethnobotany

The emergence of paleobotany as a scientific discipline can be seen in the early 19th century, especially in the works of the German palaeontologist Ernst Friedrich von Schlotheim, the Czech (Bohemian) nobleman and scholar Kaspar Maria von Sternberg, and the French botanist Adolphe-Théodore Brongniart.

Overview of the paleobotanical record

Macroscopic remains of true vascular plants are first found in the fossil record during the Silurian Period of the Paleozoic era. Some dispersed, fragmentary fossils of disputed affinity, primarily spores and cuticles, have been found in rocks from the Ordovician Period in Oman, and are thought to derive from liverwort- or moss-grade fossil plants (Wellman, Osterloff & Mohiuddin 2003).

An unpolished hand sample of the Lower Devonian Rhynie Chert from Scotland
 
An important early land plant fossil locality is the Rhynie Chert, found outside the village of Rhynie in Scotland. The Rhynie chert is an Early Devonian sinter (hot spring) deposit composed primarily of silica. It is exceptional due to its preservation of several different clades of plants, from mosses and lycopods to more unusual, problematic forms. Many fossil animals, including arthropods and arachnids, are also found in the Rhynie Chert, and it offers a unique window on the history of early terrestrial life. 

Plant-derived macrofossils become abundant in the Late Devonian and include tree trunks, fronds, and roots. The earliest tree was thought to be Archaeopteris, which bears simple, fern-like leaves spirally arranged on branches atop a conifer-like trunk (Meyer-Berthaud, Scheckler & Wendt 1999), though it is now known to be the recently discovered Wattieza.

Widespread coal swamp deposits across North America and Europe during the Carboniferous Period contain a wealth of fossils containing arborescent lycopods up to 30 meters tall, abundant seed plants, such as conifers and seed ferns, and countless smaller, herbaceous plants.

Angiosperms (flowering plants) evolved during the Mesozoic, and flowering plant pollen and leaves first appear during the Early Cretaceous, approximately 130 million years ago.

Plant fossils

A plant fossil is any preserved part of a plant that has long since died. Such fossils may be prehistoric impressions that are many millions of years old, or bits of charcoal that are only a few hundred years old. Prehistoric plants are various groups of plants that lived before recorded history (before about 3500 BC).

Preservation of plant fossils

Ginkgoites huttonii, Middle Jurassic, Yorkshire, UK. Leaves preserved as compressions. Specimen in Munich Palaeontological Museum, Germany.
 
Plant fossils can be preserved in a variety of ways, each of which can give different types of information about the original parent plant. These modes of preservation are discussed in the general pages on fossils but may be summarised in a palaeobotanical context as follows.
  1. Adpressions (compressions - impressions). These are the most commonly found type of plant fossil. They provide good morphological detail, especially of dorsiventral (flattened) plant parts such as leaves. If the cuticle is preserved, they can also yield fine anatomical detail of the epidermis. Little other detail of cellular anatomy is normally preserved.
  • Rhynia, Lower Devonian Rhynie Chert, Scotland, UK. Transverse section through a stem preserved as a silica petrifaction, showing preservation of cellular structure.
  • Petrifactions (permineralisations or anatomically preserved fossils). These provide fine detail of the cell anatomy of the plant tissue. Morphological detail can also be determined by serial sectioning, but this is both time consuming and difficult.
  • Moulds and casts. These only tend to preserve the more robust plant parts such as seeds or woody stems. They can provide information about the three-dimensional form of the plant, and in the case of casts of tree stumps can provide evidence of the density of the original vegetation. However, they rarely preserve any fine morphological detail or cell anatomy. A subset of such fossils are pith casts, where the centre of a stem is either hollow or has delicate pith. After death, sediment enters and forms a cast of the central cavity of the stem. The best known examples of pith casts are in the Carboniferous Sphenophyta (Calamites) and cordaites (Artisia).

    1. Crossotheca hughesiana Kidston, Middle Pennsylvanian, Coseley, near Dudley, UK. A lyginopteridalean pollen organ preserved as an authigenic mineralization (mineralized in situ). Specimen in Sedgwick Museum, Cambridge, UK.
    2. Authigenic mineralisations. These can provide very fine, three-dimensional morphological detail, and have proved especially important in the study of reproductive structures that can be severely distorted in adpressions. However, as they are formed in mineral nodules, such fossils can rarely be of large size.
    3. Fusain. Fire normally destroys plant tissue but sometimes charcoalified remains can preserve fine morphological detail that is lost in other modes of preservation; some of the best evidence of early flowers has been preserved in fusain. Fusain fossils are delicate and often small, but because of their buoyancy can often drift for long distances and can thus provide evidence of vegetation away from areas of sedimentation.

    Fossil-taxa

    Plant fossils almost always represent disarticulated parts of plants; even small herbaceous plants are rarely preserved whole. Those few examples of plant fossils that appear to be the remains of whole plants in fact are incomplete as the internal cellular tissue and fine micromorphological detail is normally lost during fossilisation. Plant remains can be preserved in a variety of ways, each revealing different features of the original parent plant.

    Because of these difficulties, palaeobotanists usually assign different taxonomic names to different parts of the plant in different modes of preservation. For instance, in the subarborescent Palaeozoic sphenophytes, an impression of a leaf might be assigned to the genus Annularia, a compression of a cone assigned to Palaeostachya, and the stem assigned to either Calamites or Arthroxylon depending on whether it is preserved as a cast or a petrifaction. All of these fossils may have originated from the same parent plant but they are each given their own taxonomic name. This approach to naming plant fossils originated with the work of Alexandre Brongniart and has stood the test of time.

    For many years this approach to naming plant fossils was accepted by palaeobotanists but not formalised within the International Rules of Botanical Nomenclature. Eventually, Thomas (1935) and Jongmans, Halle & Gothan (1935) proposed a set of formal provisions, the essence of which was introduced into the 1952 International Code of Botanical Nomenclature. These early provisions allowed fossils representing particular parts of plants in a particular state of preservation to be referred to organ-genera. In addition, a small subset of organ-genera, to be known as form-genera, were recognised based on the artificial taxa introduced by Brongniart (1822) mainly for foliage fossils. Over the years, the concepts and regulations surrounding organ- and form-genera became modified within successive codes of nomenclature, reflecting a failure of the palaeobotanical community to agree on how this aspect of plant taxonomic nomenclature should work (a history reviewed by Cleal & Thomas (2010)). The use of organ- and fossil-genera was abandoned with the St Louis Code (Greuter et al. 2000), replaced by "morphotaxa".

    The situation in the Vienna Code of 2005 was that any plant taxon whose type is a fossil, except Diatoms, can be described as a morphotaxon, a particular part of a plant preserved in a particular way. Although the name is always fixed to the type specimen, the circumscription (i.e. range of specimens that may be included within the taxon) is defined by the taxonomist who uses the name. Such a change in circumscription could result in an expansion of the range of plant parts and/or preservation states that can be incorporated within the taxon. For instance, a fossil-genus originally based on compressions of ovules could be used to include the multi-ovulate cupules within which the ovules were originally borne. A complication can arise if, in this case, there was an already named fossil-genus for these cupules. If palaeobotanists were confident that the type of the ovule fossil-genus and of the cupule fossil-genus could be included in the same genus, then the two names would compete as to being the correct one for the newly emended genus.

    Morphotaxa were introduced to try to overcome the issue of competing names that represented different plant parts and/or preservation states. What would you do if the species-name of a pollen-organ was pre-dated by the species name of the type of pollen produced by that pollen organ. It was argued that palaeobotanists would be unhappy if the pollen organs were named using the taxonomic name whose type specimen is a pollen grain. As pointed out by Cleal & Thomas (2010), however, the risk of the name of a pollen grain supplanting the name of a pollen organ is most unlikely. Palaeobotanists would have to be totally confident that the type specimen of the pollen species, which would normally be a dispersed grain, definitely came from the same plant that produced the pollen organ. We know from modern plants that closely related but distinct species can produce virtually indistinguishable pollen. It would seem that morphotaxa offer no real advantage to palaeobotanists over normal fossil-taxa and the concept was abandoned with the 2011 botanical congress and the 2012 International Code of Nomenclature for algae, fungi, and plants.

    Fossil groups of plants

    Stigmaria, a common fossil tree root. Upper Carboniferous of northeastern Ohio.
     
    External mold of Lepidodendron from the Upper Carboniferous of Ohio.

    Some plants have remained almost unchanged throughout earth's geological time scale. Horsetails had evolved by the Late Devonian, early ferns had evolved by the Mississippian, conifers by the Pennsylvanian. Some plants of prehistory are the same ones around today and are thus living fossils, such as Ginkgo biloba and Sciadopitys verticillata. Other plants have changed radically, or became extinct.

    Examples of prehistoric plants are:

    Notable paleobotanists

    Introduction to entropy

    From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Introduct...