quinta-feira, 7 de novembro de 2019

Evolution’s Bad Girl

Ardi shakes up the fossil record

She’s the ultimate evolutionary party crasher. Dubbed Ardi, her partial skeleton was unearthed in Ethiopia near the scattered remains of at least 36 of her comrades. Physical anthropologists had known about the discovery of this long-gone gal for around 15 years, but few expected to see the 4.4-million-year-old hell-raiser that was unveiled in 11 scientific papers in October.
Illustration: Jay Matternes © 2009
STANDING TALL In this artist’s illustration, Ardi stands amid Ardipithecus ramidus comrades in once-forested East Africa.
ARDI, DECONSTRUCTED | A top-to-bottom look at the skeletal and physical structure of Ardipithecus Ramidus. Illustrations: Jay Matternes © 2009
Like a biker chick strutting into a debutante ball, Ardi brazenly flaunts her nonconformity among more-demure members of the human evolutionary family, known as hominids. She boasts a weird pastiche of anatomical adornments, even without tattoos or nose studs. In her prime, she moved slowly, a cool customer whether upright or on all fours. Today, she’s the standard bearer for her ancient species, Ardipithecus ramidus.
And in true biker-chick fashion, Ardi chews up and spits out conventional thinking about hominid origins, according to a team — led by anthropologist Tim White of the University of California, Berkeley — that unearthed and analyzed her fragile bones (SN: 10/24/09, p. 9). First, White and his colleagues assert, Ardi’s unusual mix of apelike and monkeylike traits demolishes the long-standing assumption that today’s chimpanzees provide a reasonable model of either early hominids or the last common ancestor of people and chimps — an ancestor which some scientists suspect could even have been Ardi, if genetics-based estimates of when the split occurred are borne out.
Second, the team concludes, Ardi trashes the idea that knuckle-walking or tree-hanging human ancestors evolved an upright gait to help them motor across wide ancient savannas. Her kind lived in wooded areas and split time between lumbering around on two legs hominid-style and cruising carefully along tree branches on grasping feet and the palms of the hands.

One member of White’s team argues for a controversial possibility: that two-legged walking evolved because Ardipithecus males had small canine teeth. Many living and fossil male apes fight for mates by wielding formidable canines, but Ardi’s male counterparts had to band together and forage over long distances to obtain mates, his thinking goes.

In a third slap at scientific convention, Ardi fits a scenario in which a few closely related hominid lineages preceded the larger-brained Homo genus that emerged around 2.4 million years ago, White says. In contrast, many anthropologists think of hominid evolution as a bush composed of numerous lineages that, for the most part, died out.

Each of Ardi’s challenges draws plenty of fire. While lauding the new finds and the painstaking reconstruction of Ardi’s bony frame, some critics dismiss White and company’s reading of the fossils as incomplete and speculative.

Presentations at the Royal Society of London in October by several members of the Ardi excavation team produced “much sparring,” says anthropologist William McGrew of the University of Cambridge in England.

“There’s legitimate disagreement,” White says. “But Ardi provides a perspective on early hominid evolution that was previously missing. This is a really bizarre primate.”

Chimp change
 
Ardi ostenta um medley esquelético peculiar que empurra chimpanzés e gorilas para fora dos holofotes evolutivos, diz o antropólogo Owen Lovejoy, membro da equipe de White. Os restos antigos de Ardi indicam que o último ancestral comum de humanos e chimpanzés não deve ter se parecido com chimpanzés vivos, como muitos pesquisadores assumiram, afirma Lovejoy, da Kent State University, em Ohio.

Desde uma cisão de 8 milhões de anos atrás, os chimpanzés e gorilas evoluíram ao longo de caminhos evolutivos que eventualmente produziram características especializadas, como caminhar com os dedos, diz ele.

Na sua opinião, Ardi indica que um ancestral de chimpanzé humano tinha proporções e pés semelhantes aos de um macaco, uma região lombar flexível e sem chimpanzés e a capacidade de se mover ao longo dos galhos das árvores de quatro em vez de balançar no estilo chimpanzé de galho em galho e pendurar pelos braços estendidos.

"Ardipithecus, não chimpanzés vivos, oferece uma perspectiva notavelmente boa sobre o último ancestral comum", diz ele. "Não podemos modificar a verdade para tornar os chimpanzés mais importantes."

Essa conclusão deixa alguns cientistas impressionados. "É muito cedo para afirmar que sabemos como era o último ancestral comum sem realmente encontrar seus fósseis", comenta o antropólogo Brian Richmond, da Universidade George Washington, em Washington, DC.

Richmond sustenta que Ardi viveu vários milhões de anos após o último ancestral comum, tempo de sobra para sua espécie ter evoluído mudanças esqueléticas substanciais.

And those changes may not have been as substantial as White’s team claims, adds Richmond. Ardi’s curved toes, wide big toe and large body correspond pretty well to chimps, in his opinion.
Other fossil evidence suggests that hominids came from a climbing and knuckle-walking ape ancestor that was unlike Ardi, Richmond argues.

Chimps and other living apes can provide testable ideas about issues such as tool use among early hominids and even the last common ancestor (SN: 11/21/09, p. 24), McGrew says. “Ardi is an intermediate hominid form, as is Lucy. So what?” he asks.

Questions remain about whether Ardi had the build for regular upright walking — a clear marker of hominid status — or for primarily moving through trees, with occasional two-legged jaunts on the ground, adds anthropologist John Hawks of the University of Wisconsin–Madison.
Consider Oreopithecus, an ape that lived on an island near Italy between 9 million and 7 million years ago. This creature possessed a pelvis, legs and feet that supported tree climbing as well as slow and somewhat stilted walking.
Oreopithecus shows that there are alternate pathways to evolving a ground-based skeleton from the ape body plan,” Hawks says.

But Oreopithecus differed from Ardi in critical ways, Lovejoy responds, such as having extremely long arms. “Locomotion differed vastly between Oreopithecus and Ardi,” he says.
If Ardipithecus adopted upright walking in a big way and was a precursor of the human lineage, Hawks posits, “it could be the first hominid or perhaps even the common ancestor of humans and chimps — if we take genetic studies seriously.” DNA analyses suggest that people and chimps split from a common ancestor between 5 million and 4.5 million years ago, around Ardi’s time.
Lovejoy regards those genetic estimates as unreliable. DNA studies rest on doubtful assumptions, he says, such as constant rates of genetic mutation in the human and chimp lineages.Fossil evidence places the human-chimp split at more like 8 million to 10 million years ago, in his view.

Hominid family values
 
Disputes over Ardi’s evolutionary relationships to living and extinct apes seem cordial compared with debate over her sexual relationships and their implications for ancient hominid social life.
This fracas goes back to 1981, when Lovejoy published a paper in Science about the sex life of what was, at that time, the earliest known hominid species,

Australopithecus afarensis. The most famous member of that species is Lucy, a 3.2-million-year-old partial female skeleton found at another Ethiopian site in 1974. Lovejoy proposed that Lucy’s kind possessed traits consistent with what amounted to a sexual revolution in the ape world (SN: 6/11/05, p. 379).

Na maioria das espécies de macacos, os machos são muito maiores que as fêmeas e lutam violentamente para acasalar com fêmeas férteis, que anunciam sua disponibilidade com tecido vermelho inchado. As fêmeas criam filhos por conta própria.

Lucy amou o acordo, argumentou Lovejoy. Os machos cresceram apenas um pouco maiores que as fêmeas e tinham caninos pequenos. Os adultos de ambos os sexos favoreciam os relacionamentos de longo prazo como questão de sobrevivência, ele teorizou. Os machos forneciam comida para parceiros regulares com quem tinham filhos, permitindo que as fêmeas passassem mais tempo criando seus próprios filhos.


A monogamia funcionou, na visão de Lovejoy, porque a anatomia feminina evoluiu para mascarar sinais óbvios de ovulação que sinalizam prontidão sexual para os homens, desenvolvendo características como seios permanentemente aumentados. Os sindicatos de sucesso conseguiram uma boa chance de não ter filhos e, assim, tornaram-se desagradáveis ​​para ambos os sexos.


As evidências de Lovejoy sobre diferenças mínimas de tamanho entre os sexos de A. afarensis foram fortemente criticadas. Os críticos afirmam que ele subestimou as disparidades de tamanho.

Detratores acrescentam que machos na posição vertical com caninos diminutos poderiam ter encontrado muitas maneiras de se esmurrar nas batalhas de acasalamento, mesmo que tivessem que recorrer a socos.

With Ardi in tow, Lovejoy has now elaborated on his argument. A transition to monogamous relationships, expanded child care by mothers and hidden female ovulation first occurred before Lucy, in Ardipithecus, he proposes. Ardi’s kind displays even smaller sex differences in canine size than Lucy’s species. “Australopithecus represents a more intense version of what was already evolving in Ardipithecus,” Lovejoy says.
Cooperation among males later expanded in A. afarensis, he posits. Male bands scoured forests and savannas for food and worked together to avoid and defend against predators.

A social puzzle
 
Ardipithecus canines excavated by White’s team validate Lovejoy’s scenario, remarks anthropologist Robert Tague of Louisiana State University in Baton Rouge. Male canines are slightly larger than those of females, but all the canines are about the size of female chimps’ canines, he says.
“Although Lovejoy’s theory is widely cited and presented in almost all biological anthropology textbooks, it is also widely rejected,” Tague acknowledges.

And for good reason, argues J. Michael Plavcan of the University of Arkansas in Fayetteville. Using a different statistical approach, he estimates that Lucy was actually considerably smaller than her male cohorts.

To portray early hominids as a peaceful, monogamous crowd “is phenomenally speculative,” Plavcan says. Although large-bodied primate males with fanglike canines usually fight over mates, minimal sex differences can result in any of a variety of mating arrangements, he contends.
What’s more, Ardipithecus ramidus fossils do display size differences between the sexes sufficient to assume that males mated with several females, as in many other primates with size disparities, McGrew remarks.
“Lovejoy’s social hypothesis is an interesting just-so story,” Richmond asserts. “He’s winning the competition for the title of the Rudyard Kipling of paleoanthropology.”
Primatologist Frans de Waal of Emory University in Atlanta doesn’t dismiss Lovejoy’s social hypothesis but faults him for comparing Ardi’s kind with common chimps while ignoring pygmy chimps, or bonobos. Bonobos have small canines relative to common chimps, a largely peaceful social life and a fondness for sexual activity.
“It’s high time for a new look at the bonobo,” de Waal wrote in a published commentary shortly after the Ardi papers appeared in Science. “What if we descend not from a blustering chimplike ancestor but from a gentle, empathic, bonobo-like ape?”

That’s doubtful, since bonobos differ in some critical ways from Ardi’s kind, Lovejoy responds. In particular, he says, bonobo males display moderately larger canines and body sizes than females.
Ardipithecus ramidus preserves some of the ancestral characteristics of the last common ancestor [of humans and chimps] with much greater fidelity than does any living African ape,” Lovejoy says.

Not-so-bushy evolution
 
If Ardi cuts a singular figure that sets her apart from living apes, she also bolsters an argument for cutting back the expanding number of proposed early hominid lineages, White says. Since 1994, fossil discoveries have led to reports of four new genera from eastern Africa and Chad: 7-million to 6-million-year-old Sahelanthropus (SN: 7/13/02, p. 19), 6-million-year-old Orrorin (SN: 7/14/01, p. 20), 3.5-million-year-old Kenyanthropus (SN: 3/24/01, p. 180) and Ardipithecus, including fragmentary remains of 5.8-million to 5.2-million-year-old Ardipithecus kadabba.

White’s team folds Sahelanthropus, known only from skull remains, and Orrorin, known from fossil teeth and leg-bone pieces, into the better-described Ardipithecus genus.
Ardipithecus may represent a long period of stasis in hominid evolution,” Lovejoy says.
From about 6 million to 4.2 million years ago, he proposes, Ardipithecus evolved as a set of separate hominid groups in East Africa that interbred enough to maintain biological unity.
After that, Ardi’s kind possibly evolved into the first Australopithecus species. Or, one Ardipithecus group may have settled in an isolated area where it alone evolved into Australopithecus. It’s also possible that Australopithecus derived from a hominid lineage that researchers haven’t found, relegating Ardipithecus to an evolutionary side branch.
Anthropologists, in particular those who have excavated and named other early hominid genera, have not jumped on the Ardipithecus bandwagon. Proponents of bushy hominid evolution, such as Richmond, rely on computerized models that divvy up species by distinguishing between shared and distinctive skeletal traits across fossil sets, an approach that White and Lovejoy have criticized (SN: 11/25/00, p. 346).
“More time is needed to study Ardi and compare her to living primates,” Hawks says. “White’s team had 15 years to study this skeleton that the rest of us saw for the first time in October.”
Complaints have circulated in anthropological circles over the past decade that White has inappropriately kept outside investigators from studying Ardi’s remains. White vehemently denies those charges, saying that he has abided by Ethiopian law by publishing an initial description of the finds before making them available for others to study.
Researchers can now examine casts of the Ardipithecus fossils or, in certain cases, the fragile bones themselves, White says.
“These finds are phenomenally important and will keep many of us busy for years to come,” says anthropologist Carol Ward of the University of Missouri in Columbia.
In other words, the evolutionary shindig that Ardi crashed has just started. The night is young. Party hearty, Ardi.
Bruce Bower
Bruce Bower has written about the behavioral sciences for Science News since 1984. He writes about psychology, anthropology, archaeology and mental health issues.

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