时间:2018-12-24 作者:英语课 分类:2017年Scientific American(六)月


英语课

Last Woollies Had Mammoth 1 Mutations


长毛象灭绝的真正原因是……


In their heyday 2, woolly mammoths blanketed the Siberian steppe, Alaska and large parts of North America. But by 10,000 years ago, warming climates had turned many of the grasslands 3 they grazed into forest. And humans, well they weren't so friendly either—one mammoth provides quite a feast. So the mammoths largely disappeared. Except there's this one holdout population. On an island in the Arctic Ocean, called Wrangel Island. Where the last mammoths hid out…for more than 6,000 years.


长毛猛犸象在全盛时期遍布了西伯利亚大草原、阿拉斯加和北美大部分地区。但在一万年前,气候变暖导致许多它们放牧的草原变成了森林。而人类也不是那么友好——一个猛犸象能为人类提供一顿丰盛的大餐。所以后来猛犸象基本上消失了。除了一个仍在顽强生存的“部落”。在北冰洋的一个名为“弗兰格尔岛”的岛上。世上最后一批猛犸象在此躲藏了……超过6000年。


\"So the pyramids have been built, they've started to grow tea in China, and civilization had formed, and here are these mammoths no one knew was there, for the longest period of time." Rebekah Rogers, an evolutionary 4 geneticist at the University of North Carolina. "And then people finally found this island around 3,700 years ago, around the time they went extinct."


“所以金字塔已建成了,中国已开始种植茶叶,文明也形成了,然而如此长的一段时间里,却没有人知道这些猛犸象生活在那里。”瑞贝卡·罗杰斯,北卡罗莱纳大学的一名进化遗传学家。“后来人们终于在大约3700年前发现了这个岛,那时他们也已经灭绝了。”


Rogers and her colleague Montgomery Slatkin analyzed 5 the genome from the tooth of one of those island mammoths, which lived 4,300 years ago. They compared it to the genome of a mainland mammoth, from much farther back, 45,000 years. And they found that harmful mutations had polluted the island mammoth's genome in that time interval 6. Mutations that led to the loss of smell receptors, and urine proteins—compounds they probably needed for social signaling and mate choice.


罗杰斯和她的同事蒙哥马利·斯拉金分析了4300年前生活在该岛上的一只猛犸象牙齿上的基因组。他们将其与大陆上的猛犸象的基因组进行了比较——而大陆上的猛犸象则来源于更早的4.5万年前。他们发现,有害的基因突变在这段时间内污染了岛上猛犸象的基因组。这种突变导致了猛犸象嗅觉受体丧失和尿蛋白——它们可能需要用来打信号和选择配偶的化合物。


The animals also developed this satiny coat, that shines in the light. A trait that's actually popular for pet breeders today, for rabbits and guinea pigs. And the reason for all these mutations? Rogers says there just weren't enough individuals on the island—1,000 at the most, 300 at their lowest—to allow natural selection to run its course. So it wasn't survival of the fittest. It was survival of… whoever randomly 7 survived. Which meant they accumulated a lot of mutations. None of which made them drop dead—but they weren't all that fit, either. The study is in the journal PLoS Genetics.


这里的猛犸象还长出了光滑的外表。而这种特性在今天的宠物饲养中很流行,比如兔子和豚鼠。所有这些突变的原因是什么?罗杰斯表示,岛上没有足够的猛犸象居民——最多1000只,最少可能只有300只——来允许自然选择按照常规发展。所以这并不是适者生存的选择。而是随机的……谁都有可能幸存下来。这意味着它们积累了大量的突变。这些突变没有导致它们死亡,但它们也并没有多么健康。这项研究发表在《公共科学图书馆·遗传学》杂志上。


Rogers says a similar process could happen for rare animals on Earth today, like cheetahs 8, pandas, gorillas 9. "If you have a very small population for a very long time you can get this accumulation of bad mutations in their genomes. And so we'd expect to see the same effect for them. It does take a long time period to get a signal as big as what we saw in the mammoths, so the earlier we can intervene for those species, the better off they'll be."


罗杰斯说,现今地球上的稀有动物也有可能会经历类似的过程,比如猎豹、熊猫、大猩猩。“如果一种动物在很长一段时间中种群数量都非常小,那在它们的基因组中可能就会积累这些不良突变。因此,我们可能会看到同样的效果。不过,我们需要很长一段时间才能得到,像我们在猛犸象中看到的那样明显的信号。所以我们越早对这些物种进行干预,结局对它们来说可能就会变得越好。”


As for those humans who, long ago, found this last holdout of mammoths on Wrangel Island? "We don't have direct evidence they hunted them, but you kind of wish that they had taken them back and domesticated 10 them." There's already one interested buyer. "Oh yes, if you can find one I would like to have one as a pet. Preferably a little smaller so it fits in my house."


至于那些在很久以前就在弗兰格尔岛上发现最后一批猛犸象的人类?“我们没有直接的证据,证明他们曾猎杀它们,但我们多希望他们曾把它们带回家并驯养他们。”现在已经有一个感兴趣的买家了。“嗯,是的,如果你能找到一只(猛犸象),那么会我想养一只作为宠物。最好稍微小一点,这样它就比较适合在我的房子里生活了。”



1 mammoth
n.长毛象;adj.长毛象似的,巨大的
  • You can only undertake mammoth changes if the finances are there.资金到位的情况下方可进行重大变革。
  • Building the new railroad will be a mammoth job.修建那条新铁路将是一项巨大工程。
2 heyday
n.全盛时期,青春期
  • The 19th century was the heyday of steam railways.19世纪是蒸汽机车鼎盛的时代。
  • She was a great singer in her heyday.她在自己的黄金时代是个了不起的歌唱家。
3 grasslands
n.草原,牧场( grassland的名词复数 )
  • Songs were heard ringing loud and clear over the grasslands. 草原上扬起清亮激越的歌声。 来自《现代汉英综合大词典》
  • Grasslands have been broken and planted to wheat. 草原已经开垦出来,种上了小麦。 来自《简明英汉词典》
4 evolutionary
adj.进化的;演化的,演变的;[生]进化论的
  • Life has its own evolutionary process.生命有其自身的进化过程。
  • These are fascinating questions to be resolved by the evolutionary studies of plants.这些十分吸引人的问题将在研究植物进化过程中得以解决。
5 analyzed
v.分析( analyze的过去式和过去分词 );分解;解释;对…进行心理分析
  • The doctors analyzed the blood sample for anemia. 医生们分析了贫血的血样。 来自《简明英汉词典》
  • The young man did not analyze the process of his captivation and enrapturement, for love to him was a mystery and could not be analyzed. 这年轻人没有分析自己蛊惑著迷的过程,因为对他来说,爱是个不可分析的迷。 来自《简明英汉词典》
6 interval
n.间隔,间距;幕间休息,中场休息
  • The interval between the two trees measures 40 feet.这两棵树的间隔是40英尺。
  • There was a long interval before he anwsered the telephone.隔了好久他才回了电话。
7 randomly
adv.随便地,未加计划地
  • Within the hot gas chamber, molecules are moving randomly in all directions. 在灼热的气体燃烧室内,分子在各个方向上作无规运动。 来自辞典例句
  • Transformed cells are loosely attached, rounded and randomly oriented. 转化细胞则不大贴壁、圆缩并呈杂乱分布。 来自辞典例句
8 cheetahs
n.(奔跑极快的)非洲猎豹( cheetah的名词复数 )
  • Unlike lions or cheetahs, leopards are secretive, solitary cats. 花豹不像狮子或印度豹,是属于较神秘而隐居的大猫。 来自互联网
  • Among this lot are cheetahs, lions, leopards, rhinoceroses, spotted hyenas and elephants. 印度豹、狮子、花豹、犀牛、斑点土狼、大象等,都是此地的居民。 来自互联网
9 gorillas
n.大猩猩( gorilla的名词复数 );暴徒,打手
  • the similitude between humans and gorillas 人类和大猩猩的相像
  • Each family of gorillas is led by a great silverbacked patriarch. 每个大星星家族都由一个魁梧的、长着银色被毛的族长带领着。 来自《简明英汉词典》
10 domesticated
adj.喜欢家庭生活的;(指动物)被驯养了的v.驯化( domesticate的过去式和过去分词 )
  • He is thoroughly domesticated and cooks a delicious chicken casserole. 他精于家务,烹制的砂锅炖小鸡非常可口。 来自《简明英汉词典》
  • The donkey is a domesticated form of the African wild ass. 驴是非洲野驴的一种已驯化的品种。 来自《简明英汉词典》
学英语单词
admittance comparator
alkali spot
Amishness
annoints
basic lead carbonate
bee-flower
Binghamton
Bittorf phenomenon
bone lever
bus coupling
calophya mangiferae
Campo Formoso
cerc-
cetyltriethylammonium bromide
congestive headache
constrictors constrictors
cottone
crackhouse
cracking unit evaporator
cymetery
damage caused by waves
deferred payment letter of credit
demand the assignment of a right
diagonallage
disaffectedly
e waves
ethyldiphenylphosphine
eurohubs
exchange of pow
eyelid forceps
fibrosing adenomatosis
flexible payment
flush type
footcontroller
golden hordes
hand-writings
helminth prevalence
homologous to
hyaloplasm(pfeffer 1877)
hypoblasts
il-
immersion method
in-betweens
insectariums
instructology
iodine disulfide
joint school
Karlee
Kirkstead
knaggie
kneeholes
Kondinin
middle stump
mineral law
moisture as charged
montejo
multibarreled
neps
nonaual
O. Ni
occelli
ochlerotatus (finlaya) watteni
oil damping
on ground of
ortho amide
ossa tigris
parakrithella oblongata
partial processes
pelokonite
perpusillous
pertemps
phenoplast
prairie white-fringed orchids
prospecting hammer
really and truly
red deer(cervus elaphus)
reentry mechanics
remote procedure calls
resource allocation algorithm
rock shachiang
ronaldsway
s.k
salaried staff
saturable choke
seeds visibly weathered or poor in quality
shunt DC machine
sit-in
Slade
subcommissural organ
supersensibly
taret organ
terzas
test of predictive power of a model
test of unusual use
thiocyanoacetates
top aileron
total water solubles
transistor-transistor logic (ttl)
two way lock
ungravelly
Venae anteriores cerebri