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These are the user uploaded subtitles that are being translated: 1 00:00:11,090 --> 00:00:15,000 I'm exploring the fascinating world of plants, 2 00:00:15,069 --> 00:00:18,388 from the most bizarre to the most beautiful. 3 00:00:24,029 --> 00:00:26,893 I will be using today's latest technology 4 00:00:26,945 --> 00:00:31,209 to reveal a whole new dimension in the lives of plants. 5 00:00:34,970 --> 00:00:37,674 I'll trace them from their beginnings on land 6 00:00:37,743 --> 00:00:40,715 to their vital place in nature today... 7 00:00:48,083 --> 00:00:50,589 ..and discover a hidden world 8 00:00:50,648 --> 00:00:53,118 that, only too often, we overlook. 9 00:01:04,496 --> 00:01:08,624 We'll move from our time scale to theirs. 10 00:01:14,204 --> 00:01:16,562 We will explore the extraordinary ways 11 00:01:16,597 --> 00:01:20,666 by which some plants survive in the harshest conditions. 12 00:01:22,820 --> 00:01:26,563 And we will do all this in one unique place, 13 00:01:27,521 --> 00:01:30,889 a microcosm of the whole plant world, 14 00:01:33,213 --> 00:01:36,701 the Royal Botanic Gardens of Kew. 15 00:01:41,984 --> 00:01:49,606 Kingdom of Plants with David Attenborough 16 00:01:56,720 --> 00:01:59,727 I've seen plants growing in their natural habitats 17 00:01:59,865 --> 00:02:01,370 all over the world. 18 00:02:01,557 --> 00:02:02,991 But here in Kew, 19 00:02:03,130 --> 00:02:05,454 it's possible to examine them in a way 20 00:02:05,455 --> 00:02:08,225 that is impossible in the wild. 21 00:02:08,618 --> 00:02:12,856 Here, some 90% of all known plant species 22 00:02:12,925 --> 00:02:16,054 are represented in one form or another. 23 00:02:16,208 --> 00:02:18,293 So, in this one place, 24 00:02:18,464 --> 00:02:21,337 you can survey the entire plant kingdom, 25 00:02:21,405 --> 00:02:22,517 and what is more, 26 00:02:22,755 --> 00:02:24,601 using 3D cameras, 27 00:02:24,635 --> 00:02:28,107 reveal some of its most intimate secrets. 28 00:02:38,608 --> 00:02:42,118 Life in the Wet Zone 29 00:02:42,553 --> 00:02:44,985 Plants flourish most dramatically 30 00:02:44,986 --> 00:02:48,815 in places where there is a lot of warmth and a lot of water - 31 00:02:49,354 --> 00:02:50,675 the wet zone. 32 00:02:52,448 --> 00:02:57,088 So here we can discover how plants first established themselves on land 33 00:02:57,192 --> 00:03:01,484 to become the very foundation of all terrestrial life. 34 00:03:04,583 --> 00:03:07,330 Rainforests occupy only about 35 00:03:07,434 --> 00:03:09,535 2% of the world's land surface, 36 00:03:09,536 --> 00:03:10,892 but they contain 37 00:03:10,996 --> 00:03:14,333 over 50% of the world's species. 38 00:03:14,652 --> 00:03:17,032 And many of these wet zone plants 39 00:03:17,067 --> 00:03:19,657 have extraordinary survival strategies. 40 00:03:19,796 --> 00:03:23,445 And to study them, Kew has built a rainforest 41 00:03:23,446 --> 00:03:25,757 here on the banks of Thames. 42 00:03:30,629 --> 00:03:34,070 This is a rainforest like no other. 43 00:03:35,739 --> 00:03:39,597 The Palm House was constructed in 1844 44 00:03:39,718 --> 00:03:42,091 from over 200 tons of iron 45 00:03:42,168 --> 00:03:45,580 and 16,000 panes of glass. 46 00:03:49,578 --> 00:03:53,088 No one had ever built a glass house on this scale before 47 00:03:53,140 --> 00:03:55,835 and to do so, the architects borrowed techniques 48 00:03:55,851 --> 00:03:57,934 from the ship building industry, 49 00:03:58,256 --> 00:04:00,741 which may explain why the Palm House 50 00:04:00,984 --> 00:04:04,356 looks like the upturned hull of a ship. 51 00:04:06,337 --> 00:04:10,404 Its purpose was to provide a home for the tropical plants 52 00:04:10,560 --> 00:04:13,102 that Victorian explorers brought back 53 00:04:13,103 --> 00:04:15,501 from their adventures in the tropics. 54 00:04:18,160 --> 00:04:21,936 It was an engineering wonder of the age. 55 00:04:26,050 --> 00:04:29,823 And it is still a botanical wonder. 56 00:04:34,129 --> 00:04:36,544 Most of the plants at this end of the house 57 00:04:36,545 --> 00:04:37,675 are kept in pots 58 00:04:37,757 --> 00:04:40,616 as they would have been in Victorian times. 59 00:04:41,016 --> 00:04:43,475 And this is almost certainly 60 00:04:43,545 --> 00:04:46,203 the oldest pot plant in the world. 61 00:04:46,310 --> 00:04:50,075 This is Encephalartos altensteinii. 62 00:04:50,231 --> 00:04:54,440 and it came here in 1775. 63 00:05:00,773 --> 00:05:03,175 Altensteinii has since been joined 64 00:05:03,189 --> 00:05:07,106 by a multitude of other wet zone plants. 65 00:05:13,397 --> 00:05:17,481 Together they constitute a unique global rainforest, 66 00:05:17,509 --> 00:05:18,911 a living laboratory 67 00:05:18,939 --> 00:05:22,272 where we can watch and observe the fascinating ways 68 00:05:22,342 --> 00:05:26,758 in which rainforest plants interact and behave. 69 00:05:30,480 --> 00:05:33,865 Conditions in this glass house are near perfect 70 00:05:34,002 --> 00:05:35,523 for wet zone plants. 71 00:05:35,592 --> 00:05:36,754 It's warm, 72 00:05:36,892 --> 00:05:37,952 it's humid, 73 00:05:38,294 --> 00:05:39,593 there's plenty of light, 74 00:05:39,729 --> 00:05:42,823 and as a consequence, plants grow very rapidly 75 00:05:42,978 --> 00:05:44,499 and all through the year. 76 00:05:50,722 --> 00:05:52,688 If you speed up time, 77 00:05:52,859 --> 00:05:55,765 plants begin to reveal their true nature. 78 00:05:59,508 --> 00:06:02,586 They are not passive organisms as you might think, 79 00:06:02,790 --> 00:06:04,449 but competitive creatures, 80 00:06:04,483 --> 00:06:07,748 every bit is aggressive as animals, 81 00:06:11,577 --> 00:06:15,236 they are locked in a desperate battle for light and space. 82 00:06:17,560 --> 00:06:19,425 They stretch and pulse 83 00:06:19,442 --> 00:06:23,322 as they strive to barge their way into pole position. 84 00:06:28,484 --> 00:06:30,866 Creepers and vines reach around 85 00:06:30,899 --> 00:06:33,406 for the branch or the stem of another plant 86 00:06:33,494 --> 00:06:35,665 on which to hitch a ride. 87 00:06:51,067 --> 00:06:54,315 Bamboos, a family of giant grasses, 88 00:06:54,418 --> 00:06:57,153 are capable of extraordinary speeds 89 00:06:57,187 --> 00:07:00,863 as they race towards the mightiest light of the top of the canopy. 90 00:07:06,830 --> 00:07:10,214 They are the fastest growing of all plants. 91 00:07:14,453 --> 00:07:17,172 Some species can grow a whole meter 92 00:07:17,224 --> 00:07:18,795 in a single day. 93 00:07:21,685 --> 00:07:23,702 And at 30 meters tall, 94 00:07:23,804 --> 00:07:26,420 as high as a nine-storey office building, 95 00:07:26,505 --> 00:07:30,758 they can compete with the tallest rainforest trees. 96 00:07:43,960 --> 00:07:48,284 The one resource wet zone plants don't need to fight for 97 00:07:48,336 --> 00:07:49,584 is water. 98 00:07:53,943 --> 00:07:54,747 In fact, 99 00:07:54,918 --> 00:07:57,549 there can be so much rain in the rainforest 100 00:07:57,584 --> 00:08:00,438 that some species have to have special ways 101 00:08:00,508 --> 00:08:01,739 of getting rid of it. 102 00:08:08,492 --> 00:08:11,210 This is the taro plant 103 00:08:11,295 --> 00:08:14,441 and it has the most extraordinary leaves. 104 00:08:17,449 --> 00:08:20,389 What would happen when I pour water on them? 105 00:08:27,501 --> 00:08:29,792 The water rolls, 106 00:08:30,578 --> 00:08:33,279 leaving the leaf behind almost dry. 107 00:08:34,117 --> 00:08:35,483 And that's because the leaf 108 00:08:35,570 --> 00:08:39,844 is covered with very, very tiny microscopic structures 109 00:08:39,963 --> 00:08:43,228 which hold aloft the droplets of water. 110 00:08:44,237 --> 00:08:48,118 And as a consequence, only about 2% of water 111 00:08:48,204 --> 00:08:51,229 touches the actual leaf surface itself. 112 00:08:51,571 --> 00:08:54,306 And as the droplets roll away, 113 00:08:54,460 --> 00:08:57,589 they carry with them the dirt and bacteria, 114 00:08:57,777 --> 00:09:00,853 so, in effect, these leaves are self-cleaning. 115 00:09:09,830 --> 00:09:12,410 But there are some plants that use water 116 00:09:12,530 --> 00:09:14,290 in a different way 117 00:09:15,094 --> 00:09:17,869 and they leave high up in the canopy. 118 00:09:20,940 --> 00:09:23,197 A tank bromeliad, 119 00:09:23,334 --> 00:09:26,428 a plant that is dispensed with the need of growing 120 00:09:26,497 --> 00:09:28,104 in the soil on the ground, 121 00:09:28,240 --> 00:09:30,650 and instead attaches itself 122 00:09:30,719 --> 00:09:33,489 to branches up here in the canopy 123 00:09:33,591 --> 00:09:34,941 where there is plenty of light. 124 00:09:35,489 --> 00:09:38,002 And since it's so far from the ground, 125 00:09:38,275 --> 00:09:42,258 it has had to develop a technique of collecting its nutriment 126 00:09:42,583 --> 00:09:44,412 in a quite different way. 127 00:09:50,669 --> 00:09:52,690 They collect some of the rain 128 00:09:52,892 --> 00:09:56,910 in everyday drenches in South American rainforest where they live. 129 00:10:02,516 --> 00:10:04,858 Their leaves, which are very broad, 130 00:10:04,994 --> 00:10:08,099 channel the rain water into a central reservoir. 131 00:10:13,885 --> 00:10:14,944 At their base, 132 00:10:15,013 --> 00:10:17,234 the leaves are so tightly pressed together 133 00:10:17,286 --> 00:10:20,090 that the tank they create is watertight. 134 00:10:22,312 --> 00:10:26,398 Some species can hold up to 50 liters of liquid. 135 00:10:28,467 --> 00:10:31,851 The water not only hydrates the plant, 136 00:10:32,125 --> 00:10:34,330 but it also provides a home 137 00:10:34,483 --> 00:10:38,246 for a lot of creatures that wouldn't otherwise be able to live up here. 138 00:10:40,895 --> 00:10:42,553 These little wrigglers 139 00:10:42,655 --> 00:10:44,655 are the larvae of mosquitoes. 140 00:10:47,117 --> 00:10:49,698 In the wild, there are lots of different creatures 141 00:10:49,767 --> 00:10:52,280 that can be found in these little pools. 142 00:10:56,705 --> 00:11:00,159 This is Ranitomeya imitator, 143 00:11:01,100 --> 00:11:04,330 a poison dart frog from Peru. 144 00:11:10,826 --> 00:11:12,895 It's the size of a thumb nail 145 00:11:14,160 --> 00:11:18,020 and the only monogamous amphibian in the world. 146 00:11:21,204 --> 00:11:24,571 Some individuals spend their whole lives, 147 00:11:24,622 --> 00:11:28,759 from tadpole to adult, in and around bromeliad pools. 148 00:11:34,418 --> 00:11:35,957 And high in the canopy, 149 00:11:36,179 --> 00:11:38,692 such a pool provides an excellent home. 150 00:11:41,461 --> 00:11:43,667 It's relatively safe 151 00:11:45,017 --> 00:11:47,769 and there is a ready supply of food. 152 00:11:49,257 --> 00:11:51,682 The plant benefits from the arrangement 153 00:11:51,736 --> 00:11:54,743 because the droppings produced by its lodger 154 00:11:54,864 --> 00:11:57,668 are a nutritious fertilizer. 155 00:12:02,471 --> 00:12:05,142 Bromeliads and the frogs that live in them 156 00:12:05,275 --> 00:12:08,591 are only one example of the complex relationships 157 00:12:08,625 --> 00:12:11,134 that are bound in the rainforests. 158 00:12:14,890 --> 00:12:16,547 In tropical forests, 159 00:12:16,582 --> 00:12:19,112 the lives of every living thing, 160 00:12:19,146 --> 00:12:20,855 both animal and plant, 161 00:12:21,077 --> 00:12:23,248 are intimately entwined. 162 00:12:25,540 --> 00:12:27,386 It's a tangled web 163 00:12:27,575 --> 00:12:30,856 that has evolved over many millions of years. 164 00:12:33,554 --> 00:12:34,922 Throughout the history, 165 00:12:35,229 --> 00:12:38,545 rainforests have provided plants with a refuge 166 00:12:38,716 --> 00:12:41,862 against harsher conditions elsewhere in the planet. 167 00:12:42,137 --> 00:12:43,643 So in rainforests, 168 00:12:43,710 --> 00:12:46,717 you'll find some very ancient plant families. 169 00:12:47,316 --> 00:12:50,872 This cycad, for example, belongs to a family 170 00:12:51,008 --> 00:12:54,821 that certainly provided food for the dinosaurs. 171 00:13:06,754 --> 00:13:09,677 But the rainforest is such a rich environment 172 00:13:09,882 --> 00:13:12,855 that plants of all state in their history 173 00:13:12,958 --> 00:13:14,565 can still be found here. 174 00:13:27,627 --> 00:13:31,250 The first was slimy thread-like algae 175 00:13:31,405 --> 00:13:33,405 that emerged from rivers and swamps 176 00:13:33,438 --> 00:13:36,123 to grow on the wet muddy margins. 177 00:13:43,060 --> 00:13:45,372 40 million years or so later, 178 00:13:45,581 --> 00:13:48,054 some developed watertight coverings 179 00:13:48,123 --> 00:13:52,538 that enabled them to move on to try those still moist land. 180 00:13:58,655 --> 00:14:00,322 They were the liverworts 181 00:14:03,000 --> 00:14:04,773 and the mosses. 182 00:14:16,596 --> 00:14:20,217 Later still, some of the descendents of those plants 183 00:14:20,234 --> 00:14:21,833 stiffen their stems 184 00:14:21,902 --> 00:14:23,935 so that they were able to stand upright 185 00:14:23,953 --> 00:14:26,247 as they reached up towards the light. 186 00:14:28,333 --> 00:14:30,801 They were the ferns and horsetails. 187 00:14:40,973 --> 00:14:43,214 This greening of the earth 188 00:14:43,249 --> 00:14:45,369 changed the course of life 189 00:14:45,527 --> 00:14:48,139 allowing animals to follow plants 190 00:14:48,191 --> 00:14:50,363 out of permanent water. 191 00:15:00,357 --> 00:15:02,268 As they spread across the land, 192 00:15:02,447 --> 00:15:05,732 the plants pumped out oxygen from their leaves. 193 00:15:06,045 --> 00:15:07,887 So from the very beginning, 194 00:15:08,130 --> 00:15:10,824 land animals were dependent upon plants 195 00:15:11,137 --> 00:15:12,580 not only for food, 196 00:15:12,632 --> 00:15:15,135 but for the very air they breathe. 197 00:15:18,980 --> 00:15:22,212 A major difficulty for plants in their new environment 198 00:15:22,265 --> 00:15:23,951 was reproduction. 199 00:15:25,706 --> 00:15:28,244 If they were to produce fertile seeds, 200 00:15:28,383 --> 00:15:29,957 pollen from one had to reach 201 00:15:29,974 --> 00:15:31,552 and fertilize the ova, 202 00:15:31,620 --> 00:15:33,567 the eggs of another. 203 00:15:35,913 --> 00:15:38,903 Conifers - pines, yews and firs - 204 00:15:38,920 --> 00:15:41,370 then, as now, used wind. 205 00:15:44,186 --> 00:15:46,799 They produced vast numbers of pollen grains, 206 00:15:46,815 --> 00:15:49,631 scarcely bigger than particles of dust, 207 00:15:49,735 --> 00:15:53,003 which the wind could carry for hundreds of miles. 208 00:15:55,175 --> 00:15:57,000 The technique was successful 209 00:15:57,052 --> 00:15:58,703 but very wasteful. 210 00:16:00,603 --> 00:16:03,643 Immense quantities of pollen grains had to be produced 211 00:16:03,766 --> 00:16:06,460 if just one was to reach its target. 212 00:16:12,021 --> 00:16:15,328 But then, about 140 million years ago, 213 00:16:15,833 --> 00:16:19,291 some developed a much more efficient way of doing that - 214 00:16:23,845 --> 00:16:25,547 with flowers. 215 00:16:33,898 --> 00:16:36,377 How this happened was, for a long time, 216 00:16:36,453 --> 00:16:39,120 a total mystery to scientists, 217 00:16:40,241 --> 00:16:42,196 including one of the greatest. 218 00:16:43,256 --> 00:16:45,771 Charles Darwin was baffled 219 00:16:45,832 --> 00:16:48,948 by what he called "an abominable mystery". 220 00:16:49,539 --> 00:16:52,978 The fact that, half way through the age of dinosaurs, 221 00:16:53,099 --> 00:16:57,492 flowering plants suddenly produced a vast number of species 222 00:16:57,493 --> 00:17:00,433 and within a very short period of time. 223 00:17:00,902 --> 00:17:04,231 That contradicted one of the characteristics of evolution 224 00:17:04,246 --> 00:17:05,473 as Darwin thought 225 00:17:05,518 --> 00:17:08,443 that it was a slow and gradual process. 226 00:17:09,276 --> 00:17:11,109 How could that happen? 227 00:17:12,337 --> 00:17:15,155 From the moment Darwin posed the question, 228 00:17:15,240 --> 00:17:17,786 scientists have been striving for an answer. 229 00:17:23,983 --> 00:17:25,619 Recent fossil discoveries 230 00:17:25,634 --> 00:17:29,665 and modern DNA analysis of species present and past 231 00:17:29,781 --> 00:17:33,872 have transformed our understanding of this fascinating period. 232 00:17:36,250 --> 00:17:38,129 Using that information, 233 00:17:38,205 --> 00:17:41,478 scientists with work pioneered here in Kew 234 00:17:41,614 --> 00:17:45,336 have been able to construct the ancestral tree 235 00:17:45,442 --> 00:17:47,730 of whole of plant life. 236 00:17:55,831 --> 00:17:57,967 It begins with algae, 237 00:17:58,043 --> 00:17:59,891 the simplest of the plants, 238 00:17:59,982 --> 00:18:02,422 which are followed by the mosses. 239 00:18:06,128 --> 00:18:07,977 The thickness of the rising branches 240 00:18:07,992 --> 00:18:10,416 indicates the growth of number of species 241 00:18:10,492 --> 00:18:12,689 in each individual group. 242 00:18:17,598 --> 00:18:20,532 For the first half of the plant's evolutionary history, 243 00:18:20,593 --> 00:18:24,684 all the branches of plant life flourished roughly equally. 244 00:18:29,366 --> 00:18:32,881 But then, 140 million years ago, 245 00:18:33,063 --> 00:18:36,285 there was an explosive radiation of species - 246 00:18:36,290 --> 00:18:37,709 Darwin's mystery. 247 00:18:46,709 --> 00:18:49,779 These were the angiosperms - 248 00:18:50,416 --> 00:18:52,522 flowering plants. 249 00:18:56,885 --> 00:19:00,173 Their evolution was more gradual than Darwin had thought, 250 00:19:00,249 --> 00:19:01,687 but there is no question 251 00:19:01,749 --> 00:19:05,668 that the angiosperms quickly became the dominant group. 252 00:19:11,471 --> 00:19:15,047 They diversified to a huge range of species 253 00:19:15,168 --> 00:19:20,132 which have occupied almost every known habitat on earth. 254 00:19:22,648 --> 00:19:26,420 But what happened to stimulate this dramatic radiation? 255 00:19:27,981 --> 00:19:31,860 There was a happy coincidence of two events. 256 00:19:32,385 --> 00:19:36,566 The first was a doubling in the genetic material of plants, 257 00:19:36,582 --> 00:19:41,097 allowing them to evolve more quickly when their environment changed 258 00:19:43,879 --> 00:19:46,521 The second was one such change - 259 00:19:46,667 --> 00:19:51,743 the development of the unique relationship between plants and animals. 260 00:20:00,298 --> 00:20:02,420 The effect of this coincidence 261 00:20:02,480 --> 00:20:07,359 can be seen in one of the very first flowering plants to evolve. 262 00:20:14,770 --> 00:20:17,202 This is the Water Lily House, 263 00:20:17,203 --> 00:20:20,754 the hottest and most humid environment in Kew. 264 00:20:21,119 --> 00:20:23,378 It was built in 1852 265 00:20:23,465 --> 00:20:26,906 to accommodate the latest botanical discovery - 266 00:20:26,924 --> 00:20:29,774 the giant Amazon water lily. 267 00:20:30,457 --> 00:20:34,419 Now, it's February and the pond is almost bare. 268 00:20:34,663 --> 00:20:35,861 But in a few weeks, 269 00:20:35,897 --> 00:20:38,486 exotic water lily of all kinds 270 00:20:38,504 --> 00:20:39,789 will be sprouting. 271 00:20:49,979 --> 00:20:52,499 The ancestors of today's water lilies, 272 00:20:52,517 --> 00:20:54,290 as we know from their fossils, 273 00:20:54,411 --> 00:20:58,235 were among the first plants to produce flowers. 274 00:21:27,292 --> 00:21:30,281 Bright petals, modified leaves 275 00:21:30,368 --> 00:21:34,035 were an advancement to flying insects. 276 00:21:34,313 --> 00:21:38,132 They signal the presence of highly nutritious pollen. 277 00:21:38,849 --> 00:21:41,681 The shape of the flower work like a primitive trap 278 00:21:41,682 --> 00:21:44,150 forcing the insects to stumble about 279 00:21:44,167 --> 00:21:47,544 and bumping to the flower's reproductive structures. 280 00:21:48,569 --> 00:21:49,646 In doing so, 281 00:21:49,664 --> 00:21:52,626 the insects transferred onto the water lily 282 00:21:52,631 --> 00:21:54,739 pollen which they accidentally collected 283 00:21:54,774 --> 00:21:57,260 on earlier visits to other flowers. 284 00:21:58,180 --> 00:22:00,984 So now plants could trick insects 285 00:22:01,053 --> 00:22:04,859 into transporting their pollen directly from one plant to another 286 00:22:04,999 --> 00:22:07,919 with a door-to-door service. 287 00:22:09,969 --> 00:22:14,319 The flower of the giant Amazon water lily can close totally, 288 00:22:14,423 --> 00:22:17,378 holding the insects captive for several hours, 289 00:22:17,431 --> 00:22:21,792 thus making absolutely sure that pollination occurs. 290 00:22:26,815 --> 00:22:30,071 Many different species of plant followed suit, 291 00:22:30,105 --> 00:22:32,815 each evolving its own particular flowers 292 00:22:32,869 --> 00:22:35,249 to attract its insect messengers. 293 00:22:37,944 --> 00:22:39,872 Competition for their services 294 00:22:39,925 --> 00:22:42,676 drove the plants to diversify. 295 00:22:45,689 --> 00:22:49,493 Insects favored petals that were brighter, 296 00:22:51,195 --> 00:22:53,682 scent that was more perfume, 297 00:22:57,117 --> 00:22:59,741 and flowers that had the sweetest nectar. 298 00:23:04,847 --> 00:23:07,305 The appearance of such temptations 299 00:23:07,376 --> 00:23:09,729 had a huge effect on the insects. 300 00:23:16,209 --> 00:23:18,573 They, too, began to diversify. 301 00:23:18,603 --> 00:23:20,996 A multitude of forms could better harness 302 00:23:20,997 --> 00:23:23,906 the potential of the numerous species of flower. 303 00:23:29,810 --> 00:23:33,401 Insects with large eyes could spot the flowers, 304 00:23:36,972 --> 00:23:40,669 powerful wings could carry them between plants, 305 00:23:46,017 --> 00:23:50,729 and complex mouth parts could delve into the deepest nectary. 306 00:24:01,709 --> 00:24:04,526 So plants and insects evolved together 307 00:24:04,552 --> 00:24:07,476 driving their mutual diversity. 308 00:24:11,461 --> 00:24:14,825 Rainforests are the combination of this process, 309 00:24:14,885 --> 00:24:17,506 containing a greater variety of species 310 00:24:17,522 --> 00:24:19,431 than any other habitat. 311 00:24:21,789 --> 00:24:23,647 And here you can see 312 00:24:24,092 --> 00:24:28,638 that some plants didn't restrict themselves to insects. 313 00:24:29,819 --> 00:24:32,880 This, for example, is known as the jade vine. 314 00:24:33,057 --> 00:24:37,511 But why is it this extraordinary mesmerizing blue-green color? 315 00:24:37,950 --> 00:24:40,738 Well, we know that it is fertilized by bats. 316 00:24:40,844 --> 00:24:43,678 That's why the flowers hang out in the open, 317 00:24:43,693 --> 00:24:46,572 so bats can get up them quite easily. 318 00:24:47,188 --> 00:24:48,591 And so maybe 319 00:24:48,834 --> 00:24:51,294 this color stands out particularly boldly, 320 00:24:51,309 --> 00:24:54,415 as bats are concerned, in the moonlight. 321 00:25:08,334 --> 00:25:09,910 When the bat arrives, 322 00:25:10,001 --> 00:25:13,046 it stick its head into the flower to get the honey 323 00:25:13,304 --> 00:25:16,152 and as it does so and presses there, 324 00:25:16,495 --> 00:25:17,950 out from this hook, 325 00:25:18,101 --> 00:25:22,177 come the stamens and dab pollen on its back. 326 00:25:22,344 --> 00:25:23,889 So when the bat goes away, 327 00:25:24,026 --> 00:25:26,995 it takes the pollen to another flower. 328 00:25:31,077 --> 00:25:33,667 Each and every species of flowering plant 329 00:25:33,702 --> 00:25:36,334 has its own unique evolutionary story 330 00:25:36,385 --> 00:25:39,626 that's closely coupled with the animals that pollinated. 331 00:25:41,684 --> 00:25:44,235 But one family of flowering plant 332 00:25:44,389 --> 00:25:47,621 has developed this relationship in more complex ways 333 00:25:47,651 --> 00:25:48,928 than any other 334 00:25:49,864 --> 00:25:51,030 and, in doing so, 335 00:25:51,133 --> 00:25:55,351 has become the most numerous and diverse on the planet. 336 00:25:59,855 --> 00:26:04,033 There are an estimated 25,000 species 337 00:26:04,111 --> 00:26:05,393 of orchid. 338 00:26:13,602 --> 00:26:17,791 This family had a particular fascination for Charles Darwin 339 00:26:17,823 --> 00:26:21,961 as he reveals in one of his letters that is kept here in Kew. 340 00:26:23,337 --> 00:26:23,978 He says, 341 00:26:24,145 --> 00:26:28,504 "I have been extremely much interested with Catasetum", 342 00:26:28,632 --> 00:26:29,799 that's an orchid, 343 00:26:30,151 --> 00:26:33,833 "and indeed with many exotic orchids. 344 00:26:33,918 --> 00:26:35,797 "Orchids have interested me 345 00:26:35,812 --> 00:26:39,509 "as much as almost anything in my life." 346 00:26:40,267 --> 00:26:41,585 Charles Darwin. 347 00:26:46,070 --> 00:26:49,023 One species of these amazing plants 348 00:26:49,085 --> 00:26:51,282 can be found growing outside 349 00:26:51,413 --> 00:26:53,064 in the grounds of Kew. 350 00:26:57,746 --> 00:27:01,701 Orchids are extraordinary plants from many points of view. 351 00:27:01,867 --> 00:27:03,140 But one of them 352 00:27:03,277 --> 00:27:06,953 is that the lower lip of the flower 353 00:27:07,029 --> 00:27:10,241 is controlled by a special set of genes. 354 00:27:10,574 --> 00:27:14,938 So that means that it can evolve and change its shape and color 355 00:27:15,105 --> 00:27:18,544 while the rest of its petals remain the same. 356 00:27:20,463 --> 00:27:22,690 The lower lip of this little orchid 357 00:27:22,766 --> 00:27:26,478 has evolved to look roughly like a bee. 358 00:27:27,327 --> 00:27:30,584 And people used to think that was a kind of warning 359 00:27:30,660 --> 00:27:32,827 to warn cows not to eat it 360 00:27:32,872 --> 00:27:36,033 on the grounds that they wouldn't want to get stung on the tongue. 361 00:27:36,094 --> 00:27:38,124 Now we know that's not the case. 362 00:27:38,185 --> 00:27:42,624 This is a mimic of a female bee 363 00:27:42,791 --> 00:27:45,680 that's attracting a male to mate it 364 00:27:45,740 --> 00:27:49,104 and when the male mates, it will pollinate the flower. 365 00:27:50,149 --> 00:27:51,998 How do we know that's true? 366 00:27:52,165 --> 00:27:55,240 Because this little flower produces the scent 367 00:27:55,392 --> 00:28:00,149 which is exactly the same as that of a female bee 368 00:28:00,311 --> 00:28:02,538 trying to attract a mate. 369 00:28:05,174 --> 00:28:07,779 The unique genetic make-up of orchids 370 00:28:07,780 --> 00:28:12,265 has allowed them to evolve an almost unbelievable degree of complexity. 371 00:28:14,472 --> 00:28:17,775 And they produce their greatest variety and complexity 372 00:28:18,321 --> 00:28:19,760 in the wet zone. 373 00:28:25,240 --> 00:28:25,997 At Kew, 374 00:28:26,194 --> 00:28:29,876 they are cultivated inside the Princess of Wales Conservatory. 375 00:28:33,982 --> 00:28:37,740 In this section, conditions are perfect for them. 376 00:29:04,032 --> 00:29:06,244 Each orchid species 377 00:29:06,365 --> 00:29:09,578 has its own characteristic form and color. 378 00:29:24,400 --> 00:29:28,825 They represent the pinnacle of evolutionary cooperation 379 00:29:28,885 --> 00:29:31,597 between animals and plants. 380 00:29:48,950 --> 00:29:51,011 In their most extreme form, 381 00:29:51,102 --> 00:29:54,602 the relationship for the plant is an exclusive one. 382 00:29:54,723 --> 00:29:58,102 Only one species of insect would have the right equipment 383 00:29:58,178 --> 00:30:00,102 to claim the plant's nectar. 384 00:30:07,430 --> 00:30:11,188 This relationship between a particular kind of insect 385 00:30:11,263 --> 00:30:13,385 and a particular kind of plant 386 00:30:13,551 --> 00:30:16,930 produces some extraordinary results. 387 00:30:17,500 --> 00:30:20,091 This, for example, is Darwin's favorite orchid - 388 00:30:20,167 --> 00:30:21,243 Catasetum. 389 00:30:25,197 --> 00:30:26,788 Unusually for orchids, 390 00:30:26,819 --> 00:30:30,137 some plants are male and others are female. 391 00:30:32,707 --> 00:30:34,783 This is a male. 392 00:30:37,647 --> 00:30:40,570 It produces a kind of scent 393 00:30:40,601 --> 00:30:43,192 that attracts just one species of 394 00:30:43,217 --> 00:30:46,687 small, blowsy and beautifully colored bee. 395 00:30:47,217 --> 00:30:51,444 The bee lands on the lip of the orchid 396 00:30:51,702 --> 00:30:56,429 and thrust its head into the orchid's flower itself. 397 00:30:57,414 --> 00:30:59,439 And that touches a trigger 398 00:31:00,863 --> 00:31:04,000 and sticks onto the bee's back 399 00:31:04,076 --> 00:31:05,879 this extraordinary thing, 400 00:31:05,894 --> 00:31:07,318 which is, in fact, 401 00:31:07,394 --> 00:31:11,015 a bundle of pollen grains called "pollinia". 402 00:31:12,585 --> 00:31:15,328 This has a little cap on it, 403 00:31:16,282 --> 00:31:18,813 which, after a minute or so, folds off 404 00:31:19,025 --> 00:31:20,978 and reveals there - 405 00:31:21,025 --> 00:31:25,161 that little horseshoe shaped bundle of pollen grains. 406 00:31:28,717 --> 00:31:32,004 High speed cameras can show us the trigger mechanism 407 00:31:33,595 --> 00:31:37,156 The pollinia accelerates with great force 408 00:31:39,469 --> 00:31:42,348 and so ensures it sticks firmly 409 00:31:42,408 --> 00:31:44,272 onto the insect's back. 410 00:31:46,226 --> 00:31:48,892 The bee loads out some of these, 411 00:31:48,984 --> 00:31:50,317 flies away, 412 00:31:50,393 --> 00:31:53,181 and maybe thinks it's not going to do that again, 413 00:31:53,251 --> 00:31:55,312 but is nonetheless attracted 414 00:31:55,433 --> 00:31:57,615 to another rather different looking flower, 415 00:31:57,691 --> 00:31:58,888 which is the female, 416 00:31:59,161 --> 00:32:01,994 but which produces just that sort of scent. 417 00:32:02,539 --> 00:32:04,100 And it sticks it's head 418 00:32:04,342 --> 00:32:06,100 into the female flower 419 00:32:06,170 --> 00:32:08,549 and this little bundle of pollen, 420 00:32:08,731 --> 00:32:12,913 like a key, fits into a little aperture like a lock 421 00:32:13,140 --> 00:32:15,064 and it pulls off the pollen 422 00:32:15,413 --> 00:32:18,731 and leaves on the bee's back a little bundle. 423 00:32:19,574 --> 00:32:21,226 And lo and behold - 424 00:32:21,589 --> 00:32:23,650 pollination has been achieved. 425 00:32:28,680 --> 00:32:31,241 It's hard to imagine how evolution produce 426 00:32:31,256 --> 00:32:34,074 such a complex pollination mechanism. 427 00:32:38,281 --> 00:32:39,675 But there is one orchid 428 00:32:39,842 --> 00:32:43,448 whose life story is even more astonishing. 429 00:32:46,054 --> 00:32:49,367 Many flowers produce a sweet nectar 430 00:32:49,397 --> 00:32:53,988 to entice insects and other animals to come and pollinate. 431 00:32:54,594 --> 00:32:57,458 But this orchid from Madagascar, 432 00:32:57,897 --> 00:32:59,427 the Comet Orchid, 433 00:32:59,539 --> 00:33:00,791 carries its nectar 434 00:33:00,792 --> 00:33:06,119 at the end of extremely long spurs in back of its flower. 435 00:33:12,271 --> 00:33:14,917 What on earth could have a tongue long enough 436 00:33:14,932 --> 00:33:18,508 to reach down those huge long spurs? 437 00:33:18,841 --> 00:33:22,023 Charles Darwin who studied the fertilization of orchids 438 00:33:22,099 --> 00:33:24,902 decided it could only be a moth, 439 00:33:25,083 --> 00:33:27,068 but nobody had ever seen it. 440 00:33:27,326 --> 00:33:30,053 Until some years after his death, 441 00:33:30,215 --> 00:33:31,760 it was proved right. 442 00:33:41,950 --> 00:33:46,474 This is Xanthopan morganii praedicta, 443 00:33:47,947 --> 00:33:51,166 Morgan's predicted Sphinx moth. 444 00:33:56,372 --> 00:33:58,493 With special night-vision cameras, 445 00:33:58,537 --> 00:34:02,856 we can show why a such an immensely long tongue is needed. 446 00:34:07,350 --> 00:34:09,998 It's a third of a meter long, 447 00:34:12,764 --> 00:34:17,446 exactly the same length as the spur beneath the flower. 448 00:34:37,538 --> 00:34:41,065 The relationship between orchids and their insect pollinators 449 00:34:41,087 --> 00:34:43,538 is certainly very intimate, 450 00:34:43,681 --> 00:34:47,879 but the connection between these passion flowers and butterflies 451 00:34:47,912 --> 00:34:50,307 is even more complex. 452 00:34:57,864 --> 00:34:59,919 This is Passiflora - 453 00:35:00,073 --> 00:35:01,809 the passion vine. 454 00:35:11,520 --> 00:35:12,662 Like orchids, 455 00:35:12,729 --> 00:35:16,455 its brightly colored displays attract pollinators. 456 00:35:22,913 --> 00:35:26,056 One of them is a Heliconiinae butterfly. 457 00:35:28,484 --> 00:35:31,561 But this relationship between the insect and the plant 458 00:35:31,693 --> 00:35:34,195 is not straightforward trade off. 459 00:35:35,118 --> 00:35:37,657 Passion vine and butterfly have been engaged 460 00:35:37,668 --> 00:35:40,635 in an ongoing game of one-upmanship 461 00:35:40,657 --> 00:35:42,899 for many millions of years. 462 00:35:46,082 --> 00:35:48,708 The butterfly doesn't just want nectar. 463 00:35:51,632 --> 00:35:54,697 It also wants a place to lay its eggs, 464 00:36:01,288 --> 00:36:03,397 a place where its caterpillars 465 00:36:03,430 --> 00:36:07,156 will have something good to eat immediately nearby - 466 00:36:09,628 --> 00:36:11,738 passion flower leaves. 467 00:36:18,647 --> 00:36:22,119 And its young have huge appetites. 468 00:36:41,498 --> 00:36:44,893 But some passion vines have fought back. 469 00:36:46,662 --> 00:36:49,904 They have evolved a way to protect themselves - 470 00:36:52,563 --> 00:36:54,860 poison in their leaves. 471 00:37:00,395 --> 00:37:03,703 But sometimes even this is no defense. 472 00:37:08,128 --> 00:37:11,678 Some caterpillars not only tolerate the leaf's toxins, 473 00:37:11,700 --> 00:37:14,194 but store them in their flesh. 474 00:37:16,062 --> 00:37:19,425 And now those toxin serve as a defence 475 00:37:19,458 --> 00:37:21,931 against the caterpillar's predators. 476 00:37:30,389 --> 00:37:33,169 And the story doesn't even end here. 477 00:37:36,386 --> 00:37:40,968 The passion vine has evolved a second line of defense. 478 00:37:42,693 --> 00:37:47,265 This one has leaves that give impression of being a swarm of butterflies. 479 00:37:49,327 --> 00:37:51,031 By mimicking the real ones, 480 00:37:51,064 --> 00:37:54,899 it may be suggesting that there is no perching room for others. 481 00:38:00,214 --> 00:38:02,038 And in the details of their leaves, 482 00:38:02,049 --> 00:38:05,192 you can see something even more surprising. 483 00:38:07,049 --> 00:38:09,016 This kind of passion flower 484 00:38:09,126 --> 00:38:12,983 has a special way of dissuading female butterflies 485 00:38:12,994 --> 00:38:15,566 from laying their eggs on its leaves. 486 00:38:17,035 --> 00:38:20,617 It imitates eggs with these little yellow spots 487 00:38:20,705 --> 00:38:22,530 so that female butterflies will think 488 00:38:22,552 --> 00:38:25,892 that these leaves are already taken as you might say. 489 00:38:28,002 --> 00:38:30,639 And this different species of passion flower 490 00:38:30,801 --> 00:38:32,405 does the same thing 491 00:38:32,493 --> 00:38:34,900 but imitates eggs in a different way 492 00:38:35,131 --> 00:38:38,680 with tiny little posts at the base of the leaf. 493 00:38:47,204 --> 00:38:51,281 The passion flower's tactics illustrate some of the complex ways 494 00:38:51,292 --> 00:38:54,787 by which plants dissuade animals from raiding them. 495 00:38:58,146 --> 00:39:01,750 But some wet zone species have turned the tables. 496 00:39:07,575 --> 00:39:10,586 This bud will soon become a leaf. 497 00:39:14,628 --> 00:39:17,066 It's no ordinary leaf. 498 00:39:22,684 --> 00:39:26,654 It has a special all together more sinister purpose. 499 00:39:31,986 --> 00:39:34,216 This is Nepenthes, 500 00:39:34,326 --> 00:39:35,777 the pitcher plant. 501 00:39:40,543 --> 00:39:43,510 It grows in nutrient poor soils, 502 00:39:43,587 --> 00:39:47,433 so has to find nitrogen and minerals in another way. 503 00:39:52,573 --> 00:39:54,858 The leaf, just like a flower, 504 00:39:55,023 --> 00:39:58,001 attracts insects with a reward. 505 00:40:02,668 --> 00:40:04,745 The pitcher is colored and scented 506 00:40:04,773 --> 00:40:07,375 to appeal to flies looking for a meal 507 00:40:07,426 --> 00:40:09,567 of rotting flesh. 508 00:40:11,632 --> 00:40:14,952 The visitors are rewarded with a greasy substance 509 00:40:14,978 --> 00:40:17,414 on the underside of the pitcher's lid. 510 00:40:21,328 --> 00:40:23,841 But the plant wants something in return. 511 00:40:24,866 --> 00:40:26,019 Not pollen, 512 00:40:26,148 --> 00:40:27,277 but a meal. 513 00:40:32,088 --> 00:40:33,665 The lip of the pitcher 514 00:40:33,704 --> 00:40:37,140 in covered in tiny slippery ridges. 515 00:40:44,101 --> 00:40:47,486 Wax lubricates the surface further. 516 00:40:51,233 --> 00:40:53,490 It's extremely difficult to hold on 517 00:40:53,592 --> 00:40:55,016 even for a fly. 518 00:41:05,609 --> 00:41:08,032 Once inside, there is no escape. 519 00:41:13,058 --> 00:41:16,485 The leaf holds a pool of digestive liquid. 520 00:41:20,665 --> 00:41:24,203 This contains microscopic elastic pheromones 521 00:41:24,344 --> 00:41:27,075 which gives it the properties of quicksand. 522 00:41:28,053 --> 00:41:30,015 The more the insect struggles, 523 00:41:30,040 --> 00:41:31,912 the deeper it sinks. 524 00:41:34,105 --> 00:41:37,374 Enzymes begin to dissolve the victim's body 525 00:41:37,566 --> 00:41:39,361 while it's still alive. 526 00:41:49,032 --> 00:41:52,570 Some pitchers aren't content with just insects. 527 00:41:52,993 --> 00:41:55,557 This one eats mice. 528 00:41:55,933 --> 00:41:59,869 The mice come along, perhaps attracted by the sweet nectar on the lip. 529 00:42:00,126 --> 00:42:01,241 They fall in. 530 00:42:01,420 --> 00:42:03,561 They can't get a purchase to get out. 531 00:42:03,728 --> 00:42:04,920 They drown. 532 00:42:05,061 --> 00:42:08,728 And eventually, the enzymes in the pitcher's fluid 533 00:42:08,950 --> 00:42:12,604 dissolve the body so that, eventually, there is nothing left 534 00:42:12,706 --> 00:42:15,514 but a bit of fur and bone. 535 00:42:21,762 --> 00:42:25,762 This pitcher is called Nepenthes lowii. 536 00:42:30,236 --> 00:42:34,493 It lives on the forested the slopes of Borneo's mountains. 537 00:42:35,108 --> 00:42:39,830 And it's perhaps the most extraordinary pitcher of them all. 538 00:42:40,779 --> 00:42:45,599 The evidence is that it too attracts small mammals. 539 00:42:46,997 --> 00:42:52,215 It excretes a sort of nectar from the underside of the lid there 540 00:42:52,437 --> 00:42:55,347 and that attracts little tree shrews. 541 00:42:59,860 --> 00:43:01,937 This engaging animal 542 00:43:02,039 --> 00:43:04,514 is Tupaia montana - 543 00:43:04,603 --> 00:43:06,838 the mountain tree shrew. 544 00:43:08,261 --> 00:43:12,364 It feeds on fruit and any insects it can find. 545 00:43:14,671 --> 00:43:17,710 It also visits pitcher plants. 546 00:43:24,009 --> 00:43:28,073 Until recently, what happens next was a mystery. 547 00:43:32,641 --> 00:43:36,346 This footage seems to show that the animal has found a way 548 00:43:36,359 --> 00:43:39,577 of evading the slippery death trap. 549 00:43:42,064 --> 00:43:42,986 What is more, 550 00:43:43,051 --> 00:43:46,756 it's feeding on the underside of the pitcher's lid. 551 00:43:53,440 --> 00:43:58,081 This pitcher doesn't get its nutriment from the bodies of dead animals. 552 00:43:58,312 --> 00:44:01,444 It's got another way of sustaining itself. 553 00:44:03,226 --> 00:44:04,969 The tree shrews come to lick it. 554 00:44:04,995 --> 00:44:06,072 When they do, 555 00:44:06,136 --> 00:44:09,188 their rear end is directly over the pitcher 556 00:44:09,393 --> 00:44:12,085 so that their droppings fall into it. 557 00:44:12,679 --> 00:44:17,333 And its that that provides this plant with its nourishment. 558 00:44:21,781 --> 00:44:23,589 It's even been suggest 559 00:44:23,721 --> 00:44:26,555 that that nectar contains a laxative 560 00:44:26,619 --> 00:44:30,247 to persuade the tree shrew to do just that. 561 00:44:54,524 --> 00:44:57,999 This ability of the rainforest environment over time 562 00:44:58,050 --> 00:45:01,165 has allowed the co-evolution of animals and plants 563 00:45:01,204 --> 00:45:05,012 to develop to an unrivaled degree of complexity. 564 00:45:06,512 --> 00:45:08,229 But with complexity, 565 00:45:08,294 --> 00:45:10,221 comes fragility. 566 00:45:12,772 --> 00:45:15,400 Each and every species has its own place 567 00:45:15,413 --> 00:45:18,144 in the complex working of the rainforest. 568 00:45:21,391 --> 00:45:22,879 In recent years, 569 00:45:22,943 --> 00:45:26,879 Kew's unique position as a living laboratory of the wet zone 570 00:45:26,968 --> 00:45:29,712 has become more important than ever. 571 00:45:40,998 --> 00:45:45,242 These days, Kew's role extends far beyond these 300 acres. 572 00:45:45,421 --> 00:45:47,344 And here, people are working 573 00:45:47,408 --> 00:45:50,447 to rescue extremely rare plants. 574 00:45:50,498 --> 00:45:52,438 from total extinction. 575 00:45:54,938 --> 00:45:57,617 The danger of losing a single species 576 00:45:57,694 --> 00:46:00,605 is taken very seriously indeed. 577 00:46:03,258 --> 00:46:05,134 Here in the Water Lily Room, 578 00:46:05,186 --> 00:46:07,711 experts face a desperate scramble 579 00:46:07,763 --> 00:46:11,198 to save one species from oblivion. 580 00:46:13,416 --> 00:46:16,314 Nestling amongst the giant water lily pads, 581 00:46:16,352 --> 00:46:19,789 is the tiny Nymphaea thermarum - 582 00:46:20,997 --> 00:46:23,305 the Rwandan water lily - 583 00:46:23,626 --> 00:46:27,446 the smallest and rarest water lily in the world. 584 00:46:30,950 --> 00:46:32,467 Extinct in the wild, 585 00:46:32,544 --> 00:46:35,181 these precious few individuals 586 00:46:35,225 --> 00:46:38,445 are some of the last remaining specimens. 587 00:46:40,566 --> 00:46:43,727 These photographs show its only known habitat 588 00:46:43,796 --> 00:46:46,683 as it was over 20 years ago - 589 00:46:46,947 --> 00:46:49,617 A hot spring in Rwanda. 590 00:46:51,200 --> 00:46:53,958 It was destroyed just recently 591 00:46:54,617 --> 00:46:58,672 when locals redirected its waters to supply a laundry. 592 00:47:01,460 --> 00:47:04,251 A single specimen was brought back to Europe, 593 00:47:04,328 --> 00:47:06,790 but the species remained on the blink. 594 00:47:08,955 --> 00:47:10,779 Its seeds would germinate, 595 00:47:10,966 --> 00:47:13,119 but the seedlings always died. 596 00:47:16,039 --> 00:47:20,116 Then some seeds were given to this man at Kew - 597 00:47:20,512 --> 00:47:22,281 Carlos Magdalena. 598 00:47:24,827 --> 00:47:27,849 Known in Spain as "the Plant Messiah", 599 00:47:27,970 --> 00:47:30,322 Carlos is famous for his great skill 600 00:47:30,410 --> 00:47:33,036 in rescuing endangered species. 601 00:47:36,333 --> 00:47:38,890 But even Carlos nearly met his match 602 00:47:38,912 --> 00:47:40,717 with this tiny plant. 603 00:47:44,176 --> 00:47:46,329 Like this did many different seedlings, 604 00:47:46,450 --> 00:47:47,791 nothing seemed to work. 605 00:47:48,230 --> 00:47:51,516 Well, that meant that the species is about to disappear forever? 606 00:47:51,527 --> 00:47:53,952 Exactly, that was very worrying for me. 607 00:47:53,963 --> 00:47:56,919 So I started becoming a little bit obsessed with it. 608 00:47:57,128 --> 00:47:59,018 And, yes. 609 00:47:59,425 --> 00:48:02,051 I mean yes, it is crazy, isn't it? 610 00:48:02,205 --> 00:48:04,249 To know that something that you can do or not 611 00:48:04,315 --> 00:48:06,612 can make a difference to a species. 612 00:48:11,982 --> 00:48:13,620 Carlos didn't give up. 613 00:48:14,916 --> 00:48:17,905 He had one more unlikely idea. 614 00:48:19,726 --> 00:48:23,418 He tried growing the water lily out of water. 615 00:48:27,407 --> 00:48:30,067 This idea, growing water lily out of water, 616 00:48:30,089 --> 00:48:34,265 is something as crazy as to grow a cactus floating in a pond. 617 00:48:34,448 --> 00:48:37,118 So it was the last unlikely thing 618 00:48:37,129 --> 00:48:38,954 that logically you will do 619 00:48:39,800 --> 00:48:41,281 and then these are the result. 620 00:48:42,250 --> 00:48:44,371 Carlos' inspired idea 621 00:48:44,382 --> 00:48:48,756 was to make use of this plant's strange ecological quirk. 622 00:48:49,335 --> 00:48:52,742 Nearly all other water lilies only grow in deep water, 623 00:48:52,961 --> 00:48:55,247 but the Rwandan spring's very shallow, 624 00:48:55,390 --> 00:48:57,423 little more than damp mud. 625 00:48:59,390 --> 00:49:02,533 And so by growing it in pot above the water, 626 00:49:02,639 --> 00:49:05,826 Carlos replicated its natural habitat. 627 00:49:08,200 --> 00:49:09,925 Within a few short weeks, 628 00:49:10,013 --> 00:49:11,847 there were 50 specimens, 629 00:49:11,914 --> 00:49:13,453 all set to flower. 630 00:49:15,757 --> 00:49:17,779 So this is a crucial moment 631 00:49:17,801 --> 00:49:20,054 because if this works 632 00:49:20,065 --> 00:49:22,306 and it's clearly going to, 633 00:49:22,801 --> 00:49:25,713 you have, in fact yourself, saved the species. 634 00:49:25,768 --> 00:49:27,801 If I didn't have this crazy idea, 635 00:49:28,600 --> 00:49:31,578 the holy species will be gone forever. 636 00:49:43,388 --> 00:49:46,498 That's absolutely charming. 637 00:49:47,377 --> 00:49:48,344 Beautiful! 638 00:50:11,524 --> 00:50:14,821 In an environment with so many species 639 00:50:14,931 --> 00:50:17,183 and so many spectacular ones, 640 00:50:17,260 --> 00:50:19,678 it might seem odd to spend so much trouble 641 00:50:19,788 --> 00:50:24,268 and try to save just one comparatively inconspicuous one. 642 00:50:24,697 --> 00:50:27,015 But the relationships within the rainforest 643 00:50:27,026 --> 00:50:29,576 are so complex and so extensive 644 00:50:29,730 --> 00:50:31,488 that the loss of just one 645 00:50:31,576 --> 00:50:35,191 can have a whole series of unpredictable consequences. 646 00:50:35,730 --> 00:50:37,521 The loss of a plant 647 00:50:37,818 --> 00:50:39,616 can mean the loss of an insect. 648 00:50:39,957 --> 00:50:43,507 The loss of an insect can mean that a bush loses its pollinator. 649 00:50:43,693 --> 00:50:47,858 The loss of the bush can mean that a mammal has lost its food plant. 650 00:50:48,188 --> 00:50:50,078 Nobody can say exactly 651 00:50:50,155 --> 00:50:53,393 when or if such things are gonna happen. 652 00:50:53,767 --> 00:50:54,910 But to me, 653 00:50:55,053 --> 00:50:57,294 preventing it from happening in the first place 654 00:50:57,525 --> 00:51:00,097 seems to make absolute sense. 655 00:51:06,467 --> 00:51:10,588 The story of plants spreads well beyond the wet zone. 656 00:51:13,544 --> 00:51:18,379 They have evolved to occupy almost every environment on the planet. 657 00:51:21,933 --> 00:51:25,240 They survive in regions of constant change, 658 00:51:29,232 --> 00:51:33,330 They thrive in soils that almost never see rain, 659 00:51:37,219 --> 00:51:39,232 and, as we will discover, 660 00:51:39,437 --> 00:51:41,988 they do much of their living in ways 661 00:51:42,001 --> 00:51:46,744 that go almost entirely undetected by us. 50558