WEBVTT 00:00:00.585 --> 00:00:04.538 A keystone species is a species that has a disproportionately 00:00:04.865 --> 00:00:07.809 strong effect on the health and functioning of its ecosystem. 00:00:07.834 --> 00:00:09.822 Identifying and studying keystone species 00:00:09.822 --> 00:00:13.116 can be useful in studying and preserving the health of an ecosystem 00:00:13.466 --> 00:00:16.263 Here's two examples of keystone species. 00:00:16.387 --> 00:00:19.618 Reintroducing wolves in the greater Yellowstone ecosystem 00:00:19.726 --> 00:00:21.536 had cascading positive effects 00:00:21.867 --> 00:00:24.469 on plant populations, on soil health, 00:00:24.585 --> 00:00:26.796 in all the processes that depend on both. 00:00:27.096 --> 00:00:30.588 And restoring sea otters along the Pacific Coast of North America 00:00:30.837 --> 00:00:33.589 depressed populations of marine herbivores and predators, 00:00:33.864 --> 00:00:35.876 which allowed other species to recover. 00:00:36.307 --> 00:00:39.676 Keystone species are not just limited to charismatic mammals. 00:00:39.837 --> 00:00:44.046 Effectively any organism in an ecosystem could be keystone. 00:00:44.245 --> 00:00:47.225 The critical characteristic of a keystone species 00:00:47.560 --> 00:00:51.744 is that a large portion of the flow of energy and sources through an ecosystem 00:00:52.015 --> 00:00:53.577 depends on that species. 00:00:54.227 --> 00:00:57.167 This can occur when the species consumes resources itself, 00:00:57.416 --> 00:01:01.370 or promotes or inhibits the consumption of resources by others. 00:01:01.759 --> 00:01:03.976 Consider the north american coastal redwood 00:01:04.316 --> 00:01:07.505 Not only does this tree provide raw sources of carbon 00:01:07.608 --> 00:01:09.235 for other organisms to consume 00:01:09.326 --> 00:01:11.026 it also alters the local climate. 00:01:11.106 --> 00:01:13.908 Increasing moisture, building organic rich soils 00:01:14.188 --> 00:01:16.207 and providing a complex substrate 00:01:16.307 --> 00:01:17.898 for other organisms to live in 00:01:18.048 --> 00:01:21.629 from bryophytes to birds to insects to microorganisms. 00:01:21.977 --> 00:01:26.117 In effect, redwoods create ecosystems within ecosystems 00:01:26.307 --> 00:01:29.427 That's how highly connected they are within the network of 00:01:29.688 --> 00:01:32.828 all biological interactions along the Pacific Coast 00:01:33.158 --> 00:01:37.487 These species and many others were discovered by accident 00:01:37.809 --> 00:01:40.848 by misguided human actions leading to their removal. 00:01:40.988 --> 00:01:44.366 Resulting in negative downstream consequences due to their absence. 00:01:44.717 --> 00:01:46.398 But it doesn't have to be that way. 00:01:46.658 --> 00:01:50.117 Tools from Network Science now allow us to identify keystone species 00:01:50.327 --> 00:01:54.337 using information about the interactions that connect members of an ecosystem. 00:01:54.697 --> 00:01:58.939 Such as when on spices feeds on another or relies on another for its survival. 00:01:59.557 --> 00:02:04.018 Using this network approach we don't have to wait for the accidents to realize 00:02:04.228 --> 00:02:05.969 what drives the ecosystem health. 00:02:06.158 --> 00:02:08.976 Understanding keystone species can help us explore ways 00:02:09.059 --> 00:02:11.138 to restore biodiversity that sustains us. 00:02:11.228 --> 00:02:14.278 And here, at the Santa Fe Institute we'd like to apply concepts 00:02:14.298 --> 00:02:18.646 across disciplinary boundaries so we can use the idea of keystone species to 00:02:18.846 --> 00:02:26.629 understand how innovations revolutionized economy or how life itself began on earth.