所屬教程:生命之旅
瀏覽:
[00:00.00] [00:12.50] [00:14.50]Antarctica... the coldest place on earth... [00:17.83] [00:18.17]with an air temperature of minus 50 degrees Fahrenheit. [00:21.90] [00:23.47]You'd think that nothing could survive here - [00:26.00] [00:26.64]Yet huddling together these Emperor Penguins [00:29.40] [00:29.61]have evolved to cope with the battle for life in the big freeze. [00:33.21] [00:55.27]But cold isn't the penguins' biggest enemy [00:58.14] [00:59.71]...this is! [01:00.87] [01:07.21]The leopard seal - four meters long - a Super predator. [01:13.02] [01:14.42]No wonder everyone's reluctant to be the first to take the plunge! [01:17.69] [01:30.47]Penguin and seal have a relationship forged over millions of years, [01:34.77] [01:35.18]that of predator and prey. [01:37.97] [01:47.86]It's easy to see nature as red in tooth and claw, [01:51.45] [01:51.66]where predators dictate who lives and dies and only the fastest and strongest survive [01:57.49] [02:01.27]The truth is, predators and prey are just part of life's story, [02:05.73] [02:06.37]our world is made up of a vast network of complex relationships. [02:10.40] [02:13.68]Animals -including us - have to find mates, [02:17.31] [02:17.52]look after families and keep up with the neighbors. [02:20.32] [02:25.56]All these relationships affect how we look and behave. [02:28.86] [02:38.67]This is the surprising story of how the relationships [02:41.77] [02:41.98]between all living things have shaped the whole Journey of Life. [02:46.34] [03:01.30]Life on earth wasn't always as complicated as it is today... [03:04.96] [03:05.47]There was a time when there were no relationships at all. [03:08.40] [03:09.50]No violence, practically no competition and no sex. [03:14.13] [03:19.25]Three billion years ago [03:20.87] [03:21.08]the pinnacle of evolution was these strange lumps on the ocean floor - [03:25.21] [03:26.25]stromatolites, [03:27.74] [03:27.96]made up of ancient blue green algae. [03:30.48] [03:39.53]They might not look much but stromatolites had the power to change the world. [03:44.49] [03:46.17]They produced the first oxygen in earth's history and totally transformed the planet's atmosphere. [03:52.20] [03:54.78]Not only did they generate the air we breathe, [03:57.22] [03:57.48]they set the scene for all life as we know it today. [04:00.68] [04:02.26]Because of them, a brand new type of cell evolved, [04:05.75] [04:05.99]perhaps the most important life has ever known. [04:08.83] [04:13.20]These revolutionary, oxygen-fuelled cells spawned our ancestors. [04:18.47] [04:22.44]They were 20 times more energetic than the older models - [04:25.67] [04:26.18]And some then discovered that the quickest way to get the extra energy [04:29.67] [04:29.88]they needed was to steal it - by engulfing other cells. [04:37.55] [04:41.06]A new force was unleashed - the predator. [04:45.36] [04:46.67]And the struggle between predators and prey [04:48.96] [04:49.17]has been going on for hundreds of millions of years. [04:52.23] [04:53.91]As predators find better ways to catch and kill, their prey have to improve their self-defense. [04:59.81] [05:03.48]The two are locked in an intense relationship which forces both sides to change, [05:08.39] [05:08.76]because neither can afford to be left behind. [05:11.09] [05:12.69]Nature selects only the winners' genes the losers genes will disappear. [05:17.53] [05:19.20]This arms race has helped shape the lives and bodies of just about everything alive today [05:25.00] [05:25.31]and pushed some creatures to extremes. [05:28.71] [05:50.40]This cricket might think it's on a flower. [05:53.30] [05:59.64]Until the flower bites it in the neck. [06:01.83] [06:05.31]It's actually a mantis that's evolved to look just like an orchid - [06:09.01] [06:09.48]beauty turns out to be a beast! [06:11.71] [06:19.19]Other hunting strategies are even more bizarre [06:21.59] [06:23.30]Over millennia the snapping turtle's efforts [06:25.63] [06:25.83]to reel in a fish have turned its tongue into a juicy worm! [06:30.57] [06:42.38]Secret weapons aren't the only winning formula sometimes more subtle tactics may be needed. [06:48.18] [06:51.59]Meet jumping spider Portia, one of the world's smallest assassins [06:56.09] [06:57.56]She's hunting the much larger web spider [07:00.03] [07:01.50]She might be tiny, but she has a big appetite [07:04.60] [07:11.34]Her first direct - approach alerts her target, [07:14.78] [07:14.98]who just shakes the web and forces Portia to retreat. [07:18.21] [07:22.32]But Portia has evolved a Plan B, a maneuver straight out of Mission Impossible! [07:27.06] [07:41.27]She slowly lowers herself within striking range - [07:44.47] [07:48.32]she leaps - bites - and leaves the poison from her tiny fangs to do the rest. [07:55.28] [08:01.53]This time it isn't size or secrecy that counts - [08:04.43] [08:04.63]but strategy - Portia may be small, but she's as deadly as they come. [08:10.30] [08:13.57]The relationship between hunter and hunted doesn't only shape the way the predators attack, [08:18.88] [08:19.25]it also drives the way that prey fight back. [08:22.18] [08:24.62]Sometimes it's just about using natural assets in a different way. [08:28.38] [08:32.29]When a hungry raven eyes their chicks, field fares fight dirty! [08:36.56] [08:45.07]Dropping bombs! [08:46.37] [08:52.41]What a way to win! [08:53.81] [08:58.49]After millions of years of predators and prey slugging it out pretty much anything is possible. [09:03.98] [09:10.13]The only problem with an evolutionary arms race is we don't see it develop, [09:14.66] [09:15.20]all we see is the end result. [09:17.47] [09:21.04]The story of the passion flower vine is a rare exception. [09:24.67] [09:28.11]Just like any other prey passion vines are evolving to protect themselves [09:32.81] [09:33.02]from hungry predators. [09:34.58] [09:37.42]What makes them unique is that you can pretty much watch them doing it. [09:41.52] [09:43.30]At home in tropical America, [09:45.03] [09:45.23]they're under constant attack from lethal predators that lurk deep in the jungle. [09:51.14] [09:52.84]Helliconius butterflies! [09:54.70] [09:59.01]The adults are harmless enough - it's what they leave behind that's the problem. [10:03.47] [10:08.32]Mother butterflies lay their eggs on the passion vine's leaves. [10:12.02] [10:12.33]Tiny time bombs which soon hatch out into very hungry caterpillars. [10:16.42] [10:23.30]The fate of this plant is already sealed. [10:25.46] [10:26.01]In a few days there'll be nothing left. [10:28.20] [10:40.52]If a passion vine already has a batch of eggs installed [10:43.89] [10:44.09]it's pointless for a mother butterfly to lay more. [10:47.32] [10:47.73]There'd be nothing for her caterpillars to eat. [10:49.66] [10:50.56]This gives the passionflower a chance to fight back. [10:53.43] [10:55.64]Today not all the eggs are what they appear - [10:58.60] [10:59.07]some are in fact just yellow spots grown by the passion vine itself as a deterrent to butterflies [11:05.48] [11:11.25]But as in every arms race, not every attack is foiled. [11:14.85] [11:21.76]So there's pressure for better and better mimics to evolve [11:25.16] [11:25.43]and some are now so good it's hard to tell which eggs are real! [11:29.39] [11:31.50]False! [11:32.49] [11:33.84]Real! [11:34.93] [11:36.41]Real! [11:37.34] [11:38.38]False! [11:39.37] [11:40.38]Real! [11:41.37] [11:42.98]Who'd have thought the relationship between a butterfly and a vine [11:46.15] [11:46.35]could have produced such a sophisticated bluff. [11:49.05] [11:53.76]Even when you're safe from predators things don't always go your way, [11:57.82] [11:58.03]there's competition to contend with. [11:59.90] [12:04.40]In Africa lots of hungry meat eaters are on the lookout for a free meal. [12:08.70] [12:11.31]A Vulture has the aerial advantage of being able to spot the first signs of a kill. [12:16.01] [12:24.16]Though it won't feed undisturbed for long. [12:26.25] [12:27.53]Soon every vulture in the area is fighting for a beak full! [12:30.52] [12:50.28]At this buffet, only the toughest get to eat. [12:52.91] [12:56.86]Lappet-faced vultures are the biggest bully boys of all, [12:59.55] [12:59.96]they knock the smaller griffons flying. [13:01.86] [13:12.31]But a free lunch attracts other hopefuls too - [13:14.87] [13:20.35]more feathers fly as even Lappets have to make way for the mammal heavy mob. [13:25.18] [13:29.39]Like predators and prey, this kind of competition is a real force to be reckoned with - [13:34.16] [13:34.49]another influence on evolution which selects only the toughest to survive. [13:38.62] [13:54.88]Competition is so crucial to animals' lives, [13:57.41] [13:57.62]that it can have a massive impact on their body shape. [14:00.61] [14:03.59]Many animals in Africa feed on Acacia trees [14:06.65] [14:06.99]why don't they fight like vultures at a kill? [14:09.43] [14:10.43]Because these diners have been molded into different shapes and sizes [14:13.99] [14:14.20]so they don't tread on each other's toes. [14:16.57] [14:18.67]Tiny Dik diks can nibble around the thorny lower branches in a way no bigger animals can - [14:24.51] [14:31.25]Taller Impala have control over the acacia's middle zone [14:34.78] [14:37.42]But even they are kept in their place - by the Gerenuk - [14:40.69] [14:40.96]which has a poise no other antelope can match. [14:43.76] [14:47.43]Gerenuks look more like ballet dancers than gazelles - [14:50.53] [14:50.74]they even balance on points! [14:52.50] [14:59.68]Their specially adapted hips and spines enable them to swivel [15:03.67] [15:03.88]while on their hind legs. [15:05.21] [15:08.42]But there's one animal which can feed higher still -up to 6 meters off the ground. [15:13.95] [15:20.27]It has a flexible, leathery tongue [15:22.10] [15:22.30]it uses just like a hand to pluck the highest twigs and leaves - [15:26.43] [15:27.81]thanks to the longest neck in the world. [15:30.00] [15:35.21]The Giraffe [15:36.34] [15:40.19]So competition hasn't just pushed animals into developing different eating habits, [15:44.99] [15:45.22]it's helped create entirely different species that can live in harmony [15:49.25] [15:58.34]But what happens when neighbors want exactly the same thing? [16:02.03] [16:12.32]Ring-tailed Lemurs live in troops on the island of Madagascar. [16:16.08] [16:18.26]Each group needs their own territory to survive, [16:20.85] [16:21.09]for shelter, food and a safe place to rear babies. [16:24.59] [16:26.63]They're often under threat from other lemur gangs, [16:28.79] [16:29.00]who'll steal the whole thing if they can [16:30.94] [16:42.62]The alarm sounds - Time to rally the Troops [16:45.48] [16:51.49]These intruders look like they mean business. [16:53.82] [16:59.37]Lemur society is run by females - [17:01.83] [17:02.14]it's they who lead the band into the fray - soldiers with babies on their backs! [17:07.23] [17:29.73]When competition gets this intense, the Lemurs' answer is teamwork. [17:34.72] [17:57.29]Once animals are driven to work together, [17:59.72] [18:00.03]the close bonds that evolve can open up a whole new way of life [18:04.29] [18:08.40]Meerkats are high on the menu for many predators [18:11.43] [18:11.70]so they need to work together to protect themselves. [18:14.70] [18:35.33]They're one of the few mammals that take turns at doing different jobs. [18:39.20] [18:44.47]While the rest of the family starts digging for breakfast, [18:47.34] [18:48.31]one member stands guard, on the lookout for predators. [18:54.91] [19:03.46]The others can carry on feeding safe in the knowledge [19:06.69] [19:06.96]that someone is watching their backs. [19:08.48] [19:31.65]It's not just lookout duty that meerkats share. [19:34.75] [19:37.62]When a monitor lizard appears they all gang up to drive it way [19:41.72] [20:05.35]En masse, these little creatures make a formidable force! [20:08.98] [20:11.46]Being such good team players is the meerkats' winning formula... [20:14.72] [20:14.99]it's all for one... and one for all! [20:17.90] [20:27.34]Some animals have taken cooperation to even greater extreme. [20:31.47] [20:33.41]Certain types of insects from bees to termites to ants [20:37.28] [20:37.48]live together in huge social colonies. [20:39.88] [20:42.66]But rather than share duties like the meerkats, [20:45.22] [20:45.52]termites have actually evolved different shapes and sizes [20:48.69] [20:48.93]to make them physically specialized for certain tasks. [20:51.90] [20:53.73]Workers are the general dogsbodies which do a multitude of jobs [20:57.60] [20:57.80]from finding food to looking after the babies, and repairing the nest. [21:02.14] [21:04.58]A soldier's sole purpose is to defend the colony. [21:08.10] [21:08.41]They're twice the size of the others and are armed with pincer claws. [21:12.32] [21:14.65]Both these types have given up the ability to breed, [21:17.45] [21:17.82]that role is played by just one queen a mother of the entire colony. [21:22.82] [21:28.53]She has become an egg producing machine and swollen and immobile, [21:33.37] [21:33.57]without her extended family of servants she would die. [21:36.94] [21:38.31]In fact none of the termites can survive without the others help [21:41.61] [21:42.11]they have become one massive super organism - [21:44.84] [21:46.69]It's easy to see why we'd help our own relations [21:49.68] [21:49.89]but some animals co-operate with different species. [21:52.82] [21:53.23]How could that evolve. [21:54.56] [21:55.66]One answer is found in the sea [21:57.75] [22:00.30]A coral reef is a natural metropolis, [22:02.73] [22:02.94]a city where everyone is trying to get on and make their own way. [22:06.53] [22:10.28]It's full of opportunities, deals to be struck. [22:13.30] [22:16.22]And some entrepreneurs are cleaning up! [22:18.58] [22:24.42]It turns out there's a market niche for professional groomers! [22:27.92] [22:42.74]Cleaners - like these tiny wrasse - [22:44.90] [22:45.11]snaffle up their clients' parasites and dead skin. [22:48.01] [22:49.82]They set up their own cleaning stations [22:51.68] [22:51.92]and their clients come from far and wide for dental hygiene or a gill wash. [22:56.58] [22:57.19]In return, the cleaner gets a meal. [22:59.38] [23:03.33]Cleaner shrimps, too, serve a most discerning clientele. [23:07.13] [23:11.20]And fish are smarter than you might think, [23:13.23] [23:13.51]they have good memories and come back regularly to exactly the same spot to be pampered. [23:19.47] [23:47.51]It isn't just tropical fish though which have discovered that [23:50.37] [23:50.58]hiring a little help gives you the edge. [23:53.10] [23:55.45]Some plants have too. [23:57.01] [23:59.62]Flowers only exist because of an ancient alliance between insects and plants. [24:04.89] [24:10.26]Since plants can't move around, they need help to carry pollen [24:14.36] [24:14.57]between them to produce fertile seeds. [24:17.33] [24:18.60]So they advertise themselves as nectar feeding stations. [24:22.37] [24:24.34]As the insects feed, they get an extra take-away of pollen. [24:28.07] [24:29.32]It's a partnership that has evolved so successfully flowering plants [24:33.41] [24:33.62]now dominate our world. [24:35.59] [24:37.46]The only draw back is some insects may take pollen to the wrong plant. [24:42.16] [24:45.13]To get round this certain flowers have developed an exclusive contract with their pollinators. [24:50.63] [24:53.47]And Orchids for example can be very demanding indeed. [24:57.17] [24:59.78]Some, like this bucket orchid, may seem downright cruel! [25:03.41] [25:06.72]This Euglossine bee needs its perfumed oils to attract a mate [25:10.92] [25:15.29]But as he gathers the oil, he loses his grip. [25:18.26] [25:20.20]Exactly what the orchid wants! [25:22.46] [25:23.67]It has evolved a complex trap which press-gangs male bees into service [25:28.30] [25:30.94]The only way out is a tight squeeze via the back door [25:34.17] [25:34.38]and the orchid's pollen sacks [25:36.31] [25:57.27]The pollen sticks to the delivery bee's back. [26:00.24] [26:03.41]Once free, and dried off surely he'll never go near a bucket orchid again! [26:08.11] [26:18.46]But perhaps male bees have short memories [26:20.65] [26:21.03]because here he is falling for the same ploy all over again! [26:24.19] [26:30.47]But the only difference this time is that he's delivering pollen instead. [26:34.74] [26:39.45]No question who's in charge in this relationship! [26:41.97] [26:45.68]But there is another invisible partnership which is even more important to plants. [26:50.14] [26:53.43]Including the tallest trees on the planet. [26:55.99] [26:58.33]California Redwoods. [26:59.89] [27:01.20]They can live for more than 2000 years and grow more than a hundred meters tall. [27:07.14] [27:08.91]Although these giants are some of the largest of all living things [27:12.43] [27:12.64]they rely on the tiniest of partners which live hidden underground. [27:16.58] [27:18.18]These secret accomplices are fungi. [27:20.91] [27:21.22]They penetrate the roots and then stretch out through the soil as a network of tiny threads. [27:26.75] [27:30.63]The giant trees can't get enough water and nutrients on their own, [27:34.46] [27:34.93]but the fungal network can. [27:36.53] [27:38.54]Its massive surface area sucks up the fluid and minerals [27:42.20] [27:42.41]and transports them back to the trees roots. [27:44.97] [27:47.31]And in return trees feed the fungi sugars produced by their leaves. [27:51.65] [27:53.79]90% of all plants live with fungal partners, [27:56.85] [27:57.06]from the redwoods to the tropical rainforests, it's a 400 million year old marriage. [28:02.99] [28:07.13]Without it, plants might never have been able to colonize the land. [28:11.09] [28:12.34]And without all this green stuff, where would all we animals be? [28:17.00] [28:22.28]The close relationship between plants and fungi [28:25.11] [28:25.35]is only one of the great alliances that have shaped life. [28:28.72] [28:37.63]There is one more - you'd need a microscope to see it [28:41.09] [28:41.43]but it is perhaps the most important partnership on earth. [28:44.49] [28:47.57]Because it's what gives animals their energy. [28:50.06] [29:10.36]Scattered throughout our cells are billions of structures known as Mitochondria. [29:15.89] [29:17.10]Each is a tiny furnace that releases energy from our food [29:21.06] [29:21.41]and generates the life force that our bodies need. [29:24.10] [29:25.28]It's a crucial relationship one that started out in a very unusual way. [29:29.98] [29:31.62]Billions of years ago, the mitochondria lived independent lives, [29:35.58] [29:35.79]as free-floating bacteria. [29:37.38] [29:41.33]Then our ancestor cell engulfed one, but instead of digesting it, [29:45.92] [29:46.13]formed an alliance with its prey. [29:48.22] [29:51.67]The two joined forces and were transformed. [29:54.14] [29:54.74]Bacteria became mitochondria creating a new type of hybrid super-cell. [30:00.44] [30:03.18]A super-cell which was the basic building block for almost everything alive today. [30:08.35] [30:19.20]So there are some evolutionary partnerships where all benefit. [30:23.26] [30:28.57]But as we know relationships aren't always that straightforward. [30:32.07] [30:41.25]Most grazing animals in Africa are plagued by biting insects and ticks. [30:46.05] [30:47.76]They have what seem to be whole squads of helpful hangers-on. [30:51.63] [30:55.30]Oxpeckers - insect-eating birds that reach the parts the animals themselves can't. [31:00.67] [31:05.24]But oxpeckers aren't quite as innocent as they appear. [31:07.94] [31:09.82]They don't just eat up ticks, they peck holes in the animals' skin. [31:14.78] [31:23.40]What appear to be honest little helpers, in fact turn out to be blood-sucking parasites. [31:29.06] [31:32.40]A way of life which is surprisingly common. [31:35.20] [31:40.41]Take the rabbit for example, [31:42.21] [31:42.65]you might expect predators to have the biggest impact on their lives. [31:46.31] [31:48.22]After all, they're hunted by a whole army of killers. [31:51.21] [31:58.30]But with predators at least they can run away. [32:00.99] [32:01.90]Rabbits face another threat they can't see, smell or hear - [32:06.63] [32:07.31]parasites. [32:08.64] [32:12.31]Each rabbit is infested with thousands of fleas, ticks and minuscule Mites, [32:17.44] [32:17.75]which may be small but pack a powerful bite. [32:20.58] [32:22.19]These tiny bloodsuckers sap the rabbits' strength and within them [32:26.52] [32:26.76]they harbor an even deadlier threat. [32:29.02] [32:30.40]A fatal virus -myxamatosis - which kills far more rabbits [32:34.53] [32:34.73]every year than all predators combined. [32:37.07] [32:42.24]A virus is a nightmare straight out of science fiction. [32:46.30] [32:47.48]It's an invader with one aim - to replicate. [32:51.07] [32:51.38]It's made up of special components it needs to fulfill its mission. [32:54.72] [32:57.42]A potential victim - the outer surface of a body cell. [33:01.09] [33:03.16]On first contact the virus docks and merges with the cell membrane. [33:07.66] [33:12.34]Its inner pod enters the cell, seeks out the command centre, [33:16.24] [33:16.44]the nucleus and then injects its secret weapon - a snake of virus genes. [33:22.21] [33:26.45]These then corrupt the cell making it into a virus factory. [33:30.48] [33:32.12]Eventually the cell dies and bursts, [33:34.82] [33:35.03]releasing thousands of new viruses and the real destruction begins. [33:40.40] [33:43.50]Each year just about every baby rabbit born in the wild will catch this deadly virus. [33:49.30] [33:49.81]And only one in five will survive so it's a massive selection pressure. [33:55.41] [33:58.55]It's not just rabbits that viruses affect. [34:01.02] [34:04.29]In 1918, at the end of the Great War, a flu virus struck Europe. [34:09.06] [34:13.67]The war killed 25 million people over four years, that's three times the population of London, [34:19.76] [34:20.67]the flu epidemic wiped out the same number in just four months. [34:25.30] [34:34.42]Against such a powerful enemy, how can anything possibly fight back? [34:38.69] [34:41.13]The answer is a word we're all familiar with SEX! [34:44.93] [35:09.62]Sexual relationships aren't just about reproduction [35:13.22] [35:17.40]In fact it's perfectly possible to reproduce without sex -by cloning. [35:22.53] [35:24.60]Aphids are baby machines - they're all female and don't need a mate. [35:29.91] [35:30.28]They can pump out new aphids all by themselves. [35:33.27] [35:34.25]One every 20 minutes - each already stocked with it's own daughters! [35:38.65] [35:40.69]Cloning is great for increasing numbers fast [35:43.02] [35:43.22]but it has one flaw: As all cloned babies are identical, [35:47.89] [35:48.26]a killer disease that wipes out one wipes them all out. [35:52.49] [35:57.10]The key thing sex does is to create variety. [36:00.63] [36:03.51]Although these puppies all have the same parents, they're individuals. [36:07.77] [36:08.65]During sexual reproduction genetic material is reshuffled [36:12.71] [36:13.05]so that each sperm and egg is unique [36:15.71] [36:16.52]and when the 2 join together to make a puppy, each puppy is unique too. [36:21.25] [36:22.09]What's critical in the fight against parasites though is that [36:25.59] [36:25.80]the puppies are unique on the inside. [36:28.63] [36:29.90]This one might be more resistant to parvo virus [36:32.87] [36:33.17]and this one to distemper virus it's the same for human diseases too. [36:39.11] [36:45.65]Resistant individuals have cell membranes that lock the killer virus out. [36:50.59] [36:50.89]So its lethal life cycle can't get started. [36:54.42] [36:57.80]Sex is crucial it's evolution's way of ensuring the success of future generations. [37:03.93] [37:05.00]No wonder animals are so desperate to have sex. [37:07.97] [37:12.44]Once a year in autumn, American Elk gather to breed. [37:16.64] [37:24.46]It's called the rut - [37:25.86] [37:26.19]a spectacle where stags compete for breeding rights. [37:29.02] [37:50.28]This rut is played out in a most unusual location. [37:53.55] [37:59.12]In Yellowstone National Park [38:00.75] [38:01.03]manicured lawns attract the herds right into the centre of Yellowstone village itself. [38:06.56] [38:13.34]Here humans get a ringside seat. [38:15.57] [38:32.42]Each stag has two aims - to impress the females and frighten off rivals. [38:37.89] [38:42.37]Although the males are bigger and more dominant, it's the females who really run this show. [38:47.27] [38:49.37]As they'll be left holding the babies they're very choosy about whom they mate with. [38:53.67] [38:55.68]Only the stags with the most impressive antlers and fighting ability will do. [38:59.41] [39:02.72]Which forces the males to fight to prove themselves. [39:05.92] [39:09.46]It's a knock-out contest - where only winners get the right to breed. [39:13.09] [39:14.00]So over generations the battles get harder and the stags stronger. [39:17.99] [39:20.44]Female choice means that sexual relationships [39:23.41] [39:23.61]can shape the bodies and behavior of their mates so they are driving evolution. [39:29.24] [39:35.35]The overwhelming urge to win and pass on their genes [39:38.41] [39:38.69]can push the stags meanwhile right over the edge. [39:41.66] [40:15.33]Thankfully for other males, [40:16.69] [40:17.00]there are other less violent ways of courting favor. [40:19.62] [40:21.23]Sometimes it's all just a matter of showing off. [40:23.72] [40:25.44]So some species put all their effort into how they look. [40:28.89] [40:31.51]Posers can be just as successful as fighters! [40:34.21] [40:50.40]Instead of proving their worth on the battleground, [40:52.66] [40:52.93]these peacocks flaunt fancy dress instead. [40:55.66] [41:03.31]The females will only mate with the ones they find the most attractive. [41:06.84] [41:11.82]What does all this ostentation and display actually mean? [41:14.88] [41:20.43]How can a female be sure she's going to have good strong healthy babies? [41:24.66] [41:27.43]Remarkably a little finch proves that masculine beauty isn't just skin deep. [41:33.46] [41:34.97]Zebra Finch males have orange legs and cheeks and bright red beaks. [41:39.93] [41:43.51]The females are much plainer. [41:44.98] [41:50.29]So why are the males so colorful. [41:52.26] [41:53.16]To find out we tried a little experiment. [41:55.25] [42:00.57]The males' red legs and beaks are full of color pigments called carotenoids, [42:05.13] [42:05.34]found naturally in carrots certain fruits and seeds [42:09.10] [42:09.97]Half the males were fed a diet high in carotenoids to make them redder. [42:14.27] [42:15.78]Then they were put into a special choice chamber [42:18.11] [42:18.45]next to a duller male who hadn't been fed the pigments. [42:21.68] [42:22.62]Two males in their own designer bedrooms at the back, [42:25.38] [42:25.69]one female at the front. [42:27.49] [42:27.86]The sexes were segregated by a pane of glass. [42:30.42] [42:31.20]The males couldn't leave their rooms, [42:32.66] [42:32.96]but the female at the front could move from the left to the right. [42:36.42] [42:37.87]She could then choose a male by perching by his window. [42:40.90] [42:43.37]Tiny cameras were installed to record what happened throughout the Little Bird House. [42:47.64] [42:53.22]The high-speed CCTV footage shows what happens next. [42:56.88] [42:59.22]Watch the female at the bottom of the screen. [43:01.28] [43:02.96]She seems to have chosen the male on the left. [43:05.02] [43:06.60]And the camera in his bedroom shows she spent most of her time with him. [43:10.19] [43:12.14]While another reveals the other male was ignored. [43:15.50] [43:17.24]The most popular was the one with the brightest red beak - every time. [43:21.37] [43:26.08]In tests 9 out of 10 females preferred him. [43:29.85] [43:32.16]The question is why? [43:34.22] [43:36.33]The same red pigments not only make the male look good, [43:39.56] [43:39.76]they help his body fight diseases, too. [43:42.53] [43:43.40]A dull male is probably weaker and not a good bet as a mate [43:47.24] [43:57.25]A brightly colored male is not just likely to be healthy - [44:00.08] [44:00.39]he'll also pass on his parasite - fighting genes to his young. [44:03.75] [44:08.16]So it pays for a female to demand the best. [44:11.25] [44:17.54]And this male zebra finch has passed his medical with flying colors! [44:21.20] [44:24.64]But there's an extra twist, [44:26.08] [44:26.74]researchers now think female choice even creates new species. [44:30.91] [44:33.48]This is a zebra cichlid and experiments have shown that [44:37.05] [44:37.26]he's a dedicated follower of fashion. [44:39.19] [44:42.53]These fish are only found wild in Lake Malawi in Africa. [44:46.93] [44:48.13]What makes them special is that males have a variety of coats of many colors [44:52.66] [44:52.87]which is extremely unusual in a single species. [44:55.81] [44:57.18]Why the males come in so many different colors was a mystery. [45:00.37] [45:01.61]To investigate the fish were put in choice chambers. [45:04.91] [45:08.39]The larger, more colorful males were confined [45:11.18] [45:11.39]but the little brown females could go where they liked. [45:14.12] [45:15.79]All they had to do was swim in with the male they liked the most, [45:18.92] [45:19.13]and their choice was made. [45:20.43] [45:23.23]The tests proved some rather surprising results. [45:25.86] [45:29.14]It turns out even females of the same species have different ideas about what is sexy. [45:34.60] [45:35.68]Some preferred white males, some yellow, others blotchy and so on. [45:40.17] [45:44.19]Which explains why Zebra cichlid males come in so many different colors [45:48.25] [45:51.43]But how does that help to create new cichlid species? [45:54.42] [45:58.44]If a group of females gang together and decide that one color [46:01.96] [46:02.17]is now highly desirable, they'll only mate with those particular males. [46:06.27] [46:14.22]This preference is passed on to their daughters [46:16.74] [46:17.39]over generations an entirely separate breeding group is formed - [46:20.82] [46:21.16]and eventually a whole new type of cichlid. [46:24.32] [46:28.67]So what exactly did happen in the wild? [46:31.50] [46:35.21]Lake Malawi and the other African great lakes started out [46:38.33] [46:38.54]with just a handful of cichlid species. [46:40.98] [46:48.12]Now they're home to one in 10 of all kinds of freshwater fish on the planet. [46:54.29] [46:55.16]An incredible 1700 cichlids species. [46:58.29] [46:59.33]This is the greatest explosion of new species ever discovered. [47:02.86] [47:03.30]All created by the relationship between females and their males [47:07.40] [47:29.43]Whether with families and friends, competitors or enemies - [47:33.09] [47:33.30]living together isn't always easy. [47:35.79] [47:44.38]But relationships have been a massive force for change throughout the whole journey of life [47:50.01] [47:57.22]And ultimately it's our connections with each other [48:00.52] [48:00.86]each other that have created the spectacular variety of life we see today. [48:05.80] [48:08.80]The End [49:06.80]
第四集將為您展示同類之間是怎樣生存、合作掠食。
瘋狂英語 英語語法 新概念英語 走遍美國(guó) 四級(jí)聽力 英語音標(biāo) 英語入門 發(fā)音 美語 四級(jí) 新東方 七年級(jí) 賴世雄 zero是什么意思包頭市日月豪庭英語學(xué)習(xí)交流群
英語翻譯英語應(yīng)急口語8000句聽歌學(xué)英語英語學(xué)習(xí)方法
如何提高英語聽力
如何提高英語口語
少兒英語
千萬別學(xué)英語
Listen To This
走遍美國(guó)
老友記
OMG美語
No Book
新視野大學(xué)英語
英語四級(jí)
英語六級(jí)
看電影學(xué)單詞,本期學(xué)員招募開始啦
找外教 練口語 就上說客英語
英語在線翻譯 | 關(guān)于我們|網(wǎng)站導(dǎo)航|免責(zé)聲明|意見反饋
英語聽力課堂(vqdolsx.cn)是公益性質(zhì)的學(xué)英語網(wǎng)站,您可以在線學(xué)習(xí)英語聽力和英語口語等,請(qǐng)幫助我們多多宣傳,若是有其他的咨詢請(qǐng)聯(lián)系gmail:[email protected],謝謝!