When Archaeopteryx, a feathered skeleton that was seemingly half dinosaur and half bird, turned up in 1862—three years after the publication of The Origin of Species—the origin of birds became a subject of raging debate among palaeontologists. Suggestions that they were the direct descendants of theropod dinosaurs (a group of bipedal meat-eaters that include Allosaurus, Velociraptor and Tyrannosaurus) caused quite a flap. Today, most researchers agree that birds are, indeed, a branch of the Dinosauria. How they made the transition from the land to the sky, though, has yet to be agreed. But a paper in this week's Current Biology, by Christopher Glen and Michael Bennett of the University of Queensland, makes a strong case that they did it by jumping.
Considering the diversity of life on Earth, flight is surprisingly rare. It has evolved only four times: among the insects about 300m years ago, the pterosaurs (230m), the birds (150m) and the bats (50m). That suggests it is a hard trick to pull off. For birds, there is general agreement that feathers came before flight. Fossils from north-eastern China show animals that had feathers but clearly could not have flown, as well as ones that look like proper birds. The best guesses are that feathers evolved either for insulation (as fur did in mammals) or for display, and that natural selection took advantage by turning them into a means of transport.
There are two broad schools of thought about what happened next. One argues that birds' immediate ancestors lived in trees. Members of this school think that powered flight developed as a natural extension of gliding (such controlled falling is used as a way of travelling from tree to tree by several arboreal species today). Gliding itself developed because of the lift provided by feathered forearms.
The alternative is that flight evolved on the ground. Some researchers who belong to this school of thought suggest that the power provided by flapping protowings may have given their owners an edge in the pursuit of prey. Others hypothesise that feathery forearms helped animals steer and stabilise themselves.
Unfortunately, behaviour does not fossilise, so it looked as though the question might never be answered. But Dr. Glen, a palaeobiologist, and Dr. Bennett, a biomechanic, think they have worked out how to do so. Their crucial observation is that in modern birds the curvature of the third toe (which carries a lot of weight during walking and climbing) varies with species' lifestyles. Birds that spend lots of time climbing around on the trunks of trees have dramatically curved third toes. Those that hop around on branches have mildly curved ones. Those that forage mainly on the ground have the least curved of all.
The two researchers compared these observations with their findings for the bird-like dinosaurs and dinosaur-like birds of China. They noticed that the toes of both feathered dinosaurs and of the earliest flying birds were similar to those of modern birds that spend most of their time on the ground. Flight, in other words, came before birds took to the trees. They are not fallen angels, but risen reptiles.
1. Which one of the following statements is NOT true of the current debate on the origin of birds?
[A] The opinion that birds were the direct descendants of dinosaurs gives the world a shock.
[B] Palaeontologists have get consensus on the species' transition from the land to the sky.
[C] Palaeontologists have different opinions on the process of the transition.
[D] The paper in this week's Current Biology demonstrates that the species moved by hopping before they flied.
2. The reason why flight is surprisingly rare is that _____.
[A] life on Earth is diversified
[B] many species of this kind were eliminated during evolution
[C] feathers evolved not for a means of transport
[D] it is very hard to have such evolution
3. The two schools of thought have different opinions on _____.
[A] the functions of feathered forearms in transition from ground to sky
[B] the location of living place before the animals' evolution to birds
[C] the development of powered flight
[D] the power provided by either gliding or flapping
4. The conclusion of the study carried out by Dr. Glen and Dr. Bennet is that _____.
[A] powered flight developed as feathered forearms provided lift
[B] flight evolved on the ground before they descend on the trees
[C] earliest birds share similar toes with their modern counterparts
[D] earliest flying birds evolved from feathered dinosaurs
5. Which one of the following statements is NOT true of opinions of Dr. Glen and Dr. Bennet?
[A] Birds realized the transition from reptile to flight by jumping.
[B] Dinosaurs are, as a matter of fact, the direct descendents of birds.
[C] Feathers evolves not for the purpose of flight.
[D] The bird's behaviours is indeed fossilized by their various shape of the third toe.
1. Which one of the following statements is NOT true of the current debate on the origin of birds?
[A] The opinion that birds were the direct descendants of dinosaurs gives the world a shock.
[B] Palaeontologists have get consensus on the species' transition from the land to the sky.
[C] Palaeontologists have different opinions on the process of the transition.
[D] The paper in this week's Current Biology demonstrates that the species moved by hopping before they flied.
1. 關(guān)于鳥類起源的爭論,下列哪個(gè)陳述是錯(cuò)誤的?
[A] 鳥類是恐龍的直接后裔,這個(gè)觀點(diǎn)讓世界震驚。
[B] 古生物學(xué)家就該物種從地上到空中的轉(zhuǎn)化這個(gè)問題達(dá)成了一致。
[C] 古生物學(xué)家對(duì)于轉(zhuǎn)變的過程有不同的觀點(diǎn)。
[D] 本周的《當(dāng)今生物》上的論文表明,它們在掌握飛行能力之前是靠跳躍來移動(dòng)的。
答案:D 難度系數(shù):☆☆
分析:細(xì)節(jié)題。選項(xiàng)A,第一段提到了這點(diǎn)。選項(xiàng)B,第一段提到,許多研究者同意鳥類是恐龍的一個(gè)分支,與這點(diǎn)相符。選項(xiàng)C,第一段提到了他們在該問題上有爭議。選項(xiàng)D,鳥類是靠跳躍實(shí)現(xiàn)由地到空的轉(zhuǎn)變,而不是移動(dòng)。因此,答案為D。
2. The reason why flight is surprisingly rare is that _____.
[A] life on Earth is diversified
[B] many species of this kind were eliminated during evolution
[C] feathers evolved not for a means of transport
[D] it is very hard to have such evolution
2. 飛行的動(dòng)物很少,是因?yàn)?_____。
[A] 地球上的生物是多元化的
[B] 飛行動(dòng)物的許多物種在進(jìn)化過程中都滅絕了
[C] 羽毛并不是為了移動(dòng)的方式才進(jìn)化出來的
[D] 發(fā)生這樣的進(jìn)化很難
答案:D 難度系數(shù):☆☆☆☆
分析:細(xì)節(jié)題。根據(jù)第二段:Considering the diversity of life on Earth, flight is surprisingly rare. It has evolved only four times: among the insects about 300m years ago, the pterosaurs (230m), the birds (150m) and the bats (50m). That suggests it is a hard trick to pull off. 即飛行動(dòng)物只進(jìn)化了四次,進(jìn)化是很艱難的過程,因此飛行動(dòng)物的品種少。所以,答案為D。
3. The two schools of thought have different opinions on _____.
[A] the functions of feathered forearms in transition from ground to sky
[B] the location of living place before the animals' evolution to birds
[C] the development of powered flight
[D] the power provided by either gliding or flapping
3. 兩派在 _____ 上有不同的觀點(diǎn)。
[A] 長有羽毛的前臂在從地上到空中轉(zhuǎn)變中的作用
[B] 這些動(dòng)物進(jìn)化為鳥類之前生活的地方
[C] 動(dòng)力飛行的發(fā)展
[D] 力量是由滑翔或者拍動(dòng)翅膀提供的
答案:C 難度系數(shù):☆☆☆
分析:細(xì)節(jié)題。根據(jù)第三段和第四段,兩派科學(xué)家在鳥類的飛行是靠滑行還是靠拍動(dòng)翅膀提供的升力而形成的這一點(diǎn)上有分歧,因此,選項(xiàng)C符合題意。選項(xiàng)B比較具有干擾性,文章中提到,兩種觀點(diǎn)認(rèn)為,這些動(dòng)物在進(jìn)化為鳥類之前是分別住在地面上和樹上的,但這只是一個(gè)表面的原因,深層次的原因還在于選項(xiàng)C。
4. The conclusion of the study carried out by Dr. Glen and Dr. Bennet is that _____.
[A] powered flight developed as feathered forearms provided lift
[B] flight evolved on the ground before they descend on the trees
[C] earliest birds shared similar toes with their modern counterparts
[D] earliest flying birds evolved from feathered dinosaurs
4. Glen博士和Bennet博士在該研究中得到的結(jié)論是 _____。
[A] 長有羽毛的前臂提供了升力,從而使得動(dòng)力飛行發(fā)展起來
[B] 飛行是在地上發(fā)展而來的,發(fā)生在它們落到樹上之前
[C] 最早飛行的鳥類與現(xiàn)代鳥類的第三個(gè)腳趾相似
[D] 最早的會(huì)飛的鳥是從長羽毛的恐龍進(jìn)化來的
答案:B 難度系數(shù):☆☆☆
分析:細(xì)節(jié)題。根據(jù)第五段和第六段,他們通過研究鳥類的腳趾得出結(jié)論,鳥類一開始是在地上生活,在轉(zhuǎn)移到樹上生活之前就可以飛翔了,那么它們的飛翔是從地面上發(fā)展而來的。因此,答案為B。選項(xiàng)C具有一定的迷惑性,但是要注意的是modern counterparts的范圍過于廣泛,而文中說的是modern birds that spend most of their time on the ground,因此該選項(xiàng)錯(cuò)誤。
5. Which one of the following statements is NOT true of opinions of Dr. Glen and Dr. Bennet?
[A] Birds realized the transition from reptile to flight by jumping.
[B] Dinosaurs are, as a matter of fact, the direct descendents of birds.
[C] Feathers evolves not for the purpose of flight.
[D] The bird's behaviour is indeed fossilized by their various shape of the third toe.
5. 關(guān)于Glen博士和Bennet博士的觀點(diǎn),下列哪個(gè)陳述是錯(cuò)誤的?
[A] 鳥類依靠跳躍實(shí)現(xiàn)了從爬行動(dòng)物到飛行動(dòng)物的轉(zhuǎn)變。
[B] 恐龍實(shí)際上是鳥類的直接后裔。
[C] 鳥類的羽毛不是為了飛行而進(jìn)化形成的。
[D] 鳥類的行為實(shí)際上是由其第三個(gè)腳趾的不同形狀決定的。
答案:B 難度系數(shù):☆☆☆
分析:細(xì)節(jié)題。選項(xiàng)B,這一點(diǎn)不符合他們的觀點(diǎn),文章中的意思應(yīng)該是鳥類是恐龍的直接后裔。選項(xiàng)A是正確的,這一點(diǎn)在第一段中就有所提及:But a paper in this week's Current Biology, by Christopher Glen and Michael Bennett of the University of Queensland, makes a strong case that they did it by jumping. 選項(xiàng)C的表述也是正確的,因?yàn)槲恼绿岬剑鹈某霈F(xiàn)甚至是在鳥類掌握了飛行能力之后,因此不是為了這個(gè)目的。選項(xiàng)D的表述是正確的,文章倒數(shù)第二段提到Unfortunately, behaviour does not fossilise, so it looked as though the question might never be answered. But Dr. Glen, a palaeobiologist, and Dr. Bennett, a biomechanic, think they have worked out how to do so. 進(jìn)而指出他們采用的方法就是研究鳥類的第三腳趾。因此,答案為B。
當(dāng)始祖鳥這種看上去一半是恐龍一半是鳥類的有羽毛的動(dòng)物的骨架于1862年被發(fā)現(xiàn),也就是《物種起源》出版的三年后,鳥類的起源成為古生物學(xué)家激烈爭論的主題。有人提出,它們是獸腳亞目的恐龍(一類兩足食肉恐龍,包括異龍、速龍和霸王龍)的直接后裔,這引起了一片嘩然?,F(xiàn)在,大多數(shù)研究者同意,鳥類實(shí)際上是恐龍的一個(gè)分支。但是,它們是如何從陸地轉(zhuǎn)到空中生活的,在這個(gè)問題上還存在分歧。但是本周的《當(dāng)今生物》上發(fā)表了昆士蘭大學(xué)的Christopher Glen和Michael Bennett的一篇文章,有力地證明了鳥類正是靠跳躍實(shí)現(xiàn)了這種轉(zhuǎn)變的。
鑒于陸地上生命的多樣性,飛行動(dòng)物的種類相對(duì)是極少的。飛行動(dòng)物只進(jìn)化過四次:3億年前昆蟲的進(jìn)化,2.3億年前的翼龍,1.5億年前的鳥類和5千萬年前的蝙蝠。這表明了進(jìn)化是艱難的歷程。大家普遍同意,在能夠飛行之前,鳥類已先長出了羽毛。在中國東北發(fā)現(xiàn)的化石表明,當(dāng)時(shí)擁有羽毛的動(dòng)物并不能飛行,即使那些看起來完全像鳥類的也是這樣??赡艿那闆r就是,羽毛的出現(xiàn)或者是充當(dāng)隔離層(作用和哺乳動(dòng)物的皮毛一樣),或者是為了好看,而自然選擇又將它們轉(zhuǎn)變成運(yùn)動(dòng)的工具。
對(duì)于接下來的進(jìn)化,有兩派不同看法。一派認(rèn)為,鳥類的直系祖先生長在樹上,該派成員認(rèn)為,滑行(今天還有一些樹棲動(dòng)物依靠這種有控制的墜落從一棵樹轉(zhuǎn)移到另外一棵樹上)自然會(huì)發(fā)展成為飛行。滑行自身也會(huì)發(fā)展,因?yàn)殚L了羽毛的前臂為其提供了升力。
另外一派的觀點(diǎn)是,飛行是從地面活動(dòng)發(fā)展而來的。該派的一些研究者認(rèn)為,相當(dāng)于翅膀的那個(gè)部分拍動(dòng)起來產(chǎn)生的動(dòng)力給了這些動(dòng)物捕食的能力。其他的一些假設(shè)還有,長了羽毛的前臂有助于動(dòng)物轉(zhuǎn)向或保持平衡。
不幸的是,動(dòng)作不能變成化石,因此這個(gè)問題看起來可能永遠(yuǎn)都沒有答案了。但是古生物學(xué)家Glen博士和生物力學(xué)家Bennett博士認(rèn)為,他們已經(jīng)找出了具體的方案。他們的核心觀察是現(xiàn)代鳥類第三個(gè)腳趾(在行走或爬行的時(shí)候,這個(gè)腳趾承載許多重量)的彎曲度因鳥類生活方式的不同而有差異。多數(shù)時(shí)間在樹干上爬行的鳥類的第三個(gè)腳趾非常彎曲,而在樹枝上跳來跳去的鳥類的第三個(gè)腳趾稍微彎曲,而那些主要在地上搜索食物的鳥類的第三個(gè)腳趾是最不彎曲的。
這兩位研究者將這些觀察結(jié)果與對(duì)中國的類鳥恐龍和類恐龍鳥的發(fā)現(xiàn)做了比較,他們發(fā)現(xiàn),有羽毛的恐龍和最早的會(huì)飛行的鳥類的腳趾與那些大多數(shù)時(shí)間在地上活動(dòng)的現(xiàn)代鳥類相似。換句話說,鳥類在上樹生活之前就可以飛翔了。它們不是墜落的天使,而是飛起來的爬行動(dòng)物。