Driven to Extinction: The Impact of Climate Change on Biodiversity
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About this ebook
Could more than a million species disappear in the twenty-first century?
Written by a leading scientist in the field, Driven to Extinction draws upon fascinating case studies from around the world, providing balanced and well-reasoned insight into the potential impacts of climate change on the diversity of life. Richard Pearson focuses on the science of the issue, revealing what has happened––as well as what is likely to happen––to some of the world’s weirdest and most wonderful species as global temperatures continue to rise.
“A nuanced and fascinating book about the interrelationship of two of the greatest challenges humanity will face in this century—holding climate change within manageable bounds and preserving biodiversity in the face of rapidly changing habitat and a changing climate.” —John Topping, President of the Climate Institute
“The ideal resource for citizens concerned about the dangers of climate change and the future of biodiversity.” —Spirituality & Practice
“A carefully crafted and highly readable analysis . . . devoid of jargon and excessive technical terminology, Pearson’s work is highly recommended to anyone with interest in nature conservation or broader climate change issues.” —Biological Conservation
“A wonderfully written revelation of how nature is stirring in response to climate change—and a wake-up call to what could happen to our fellow inhabitants on the living planet. Required reading for every citizen.” —Thomas E. Lovejoy, Biodiversity Chair, the Heinz Center, and Senior Advisor to the United Nations Foundation
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Driven to Extinction - Richard Pearson
DRIVEN
TO
EXTINCTION
DRIVEN
TO
EXTINCTION
The Impact of Climate Change
on Biodiversity
9781402788734p_0004_001RICHARD PEARSON, PHD
19781402788734p_0004_002STERLING and the distinctive Sterling logo are registered trademarks of Sterling Publishing Co., Inc.
Library of Congress Cataloging-in-Publication Data Available.
10 9 8 7 6 5 4 3 2 1
Published by Sterling Publishing Co., Inc.
387 Park Avenue South, New York, NY 10016
© 2011 by Richard Pearson
Distributed in Canada by Sterling Publishing
c/o Canadian Manda Group, 165 Dufferin Street
Toronto, Ontario, Canada M6K 3H6
Distributed in the United Kingdom by GMC Distribution Services
Castle Place, 166 High Street, Lewes, East Sussex, England BN7 1XU
Distributed in Australia by Capricorn Link (Australia) Pty. Ltd.
P.O. Box 704, Windsor, NSW 2756, Australia
Design by Anderson Design Group AndersonDesignGroup.com
Cover photo of a Panther Chameleon © Chris Mattison/age fotostock
Author photo by Denis Finnin, © American Museum of Natural History
Manufactured in the United States of America
All rights reserved
This book has been printed and bound in a sustainable manner using recycled materials and soy-based inks.
Sterling ISBN: 978-1-4027-7223-8
For information about custom editions, special sales, premium and corporate purchases, please contact Sterling Special Sales
Department at 800-805-5489 or [email protected].
CONTENTS
PREFACE
CHAPTER 1 A Climate for Life
CHAPTER 2 Herps on Hills
CHAPTER 3 To the Ends of the Earth
CHAPTER 4 Out of Sync
CHAPTER 5 A Global Fingerprint
CHAPTER 6 Extinction Risk
CHAPTER 7 Running to Keep Still
CHAPTER 8 Complex Communities
CHAPTER 9 Crying Wolf ?
CHAPTER 10 Twenty-First-Century Conservation
NOTES
REFERENCES
FURTHER READING
CONVERSIONS
ACKNOWLEDGMENTS
PHOTO CREDITS
INDEX
PREFACE
This book is about the threat that climate change poses to the diversity of plants and animals that inhabit Earth. According to some headlines, more than a million species could face extinction due to climate change during the twenty-first century. Debate on this topic has tended to be polarized by the viewpoints of catastrophists who fret that we are heading toward total disaster, and skeptics who insist that there is nothing to worry about. My goal in this book is to describe as accurately as possible the current understanding of this issue. I aim to explain the science behind the debate and evaluate in an unbiased and level-headed manner the risks that climate change poses.
My main argument is that climate change is a severe threat to many species. In particular, climate change amplifies the risk of extinction when combined with other threats, such as habitat destruction, overharvesting, and invasive species. However, I show that it remains extremely difficult to predict how bad future impacts will be and I warn against alarmist messages of impending catastrophe. In doing so, I wade into some prickly—but important—territory concerning the role that scientists play in influencing public and political debate. Are scientists and environmentalists crying wolf
over climate change?
There has been a huge amount of scientific research in recent years on the impacts of climate change, and my primary motivation for writing this book has been to communicate some of this fascinating and important science to a broader audience. The vast majority of information presented here is taken directly from articles published in peer reviewed scientific journals. Additional insights and tidbits of information that help make sense of the technical literature have been provided by colleagues (see Acknowledgments), but I have not adopted a journalistic approach of conducting interviews to provide content for the book.
It has not been my goal to provide an exhaustive review of studies that have been published on this topic. Rather, I have selected case studies that illustrate key concepts and that together link up to make a coherent, and I hope interesting, narrative. Wherever possible, I have selected studies to include a variety of organisms from different regions of the world, and I have paid particular attention to studies that illustrate how facts and figures provided by dedicated volunteers—citizen scientists
—can be crucial for increasing our knowledge of the natural world.
In order to understand science, it is essential to understand scientific methods. I therefore aim to describe not only what we know, but also how we know it—the data, methods, and reasoning that led to a particular conclusion. For instance, I describe the various types of observations and models that have been used to predict future species’ extinctions due to climate change. It is necessary to appreciate how these predictions are made if we are to interpret them correctly and make informed decisions about how to respond to the threat.
I hope that this book will appeal to anyone with an interest in nature conservation and/or the broader climate change issue. I find that the details of the science can be perfectly well communicated while avoiding jargon and an excess of technical terms. In fact, my experience in writing this book has taught me that, far from leading to imprecision, the translation of scientific articles into readable essays for the nonspecialist in some cases actually increases precision—there is no hiding flaky thinking or half-baked ideas behind technical terminology and impenetrable academic phrasing.
Climate change and nature conservation are—like it or not—issues that are important for all of us. We must be armed with a clear understanding of the risks involved if we, as a society, are to make informed and reasoned decisions about the action that should be taken to face the challenges of the coming century. My hope is that this book contributes toward deepening that understanding.
A note on units: Metric units, such as meters and kilometers, are most commonly used in science and I have therefore mostly adopted these measures throughout the book. However, in departure from the scientific literature, I present temperature measurements in degrees Fahrenheit rather than degrees Celsius. This is because Fahrenheit remains the most commonly used temperature scale in America, especially when referring to climate and weather. A list of conversions is included.
2
CHAPTER 1 2
A Climate for Life
Millions of species
There are approximately 1.5 million species living on our planet that are known to science. This is roughly the number of species that have been observed, named, and assigned a place on the tree of life by biologists. It’s only a rough estimate because there is no centralized list, so we can’t do a single giant tally. Nevertheless, it is reasonable to assume that we are correct to within a few hundred thousand.
The number of species that are recognized by science increases by about 10,000 each year. Again, we don’t know the number for sure, but this is more or less the capacity of the world’s biologists to name new specimens and write scientific descriptions about them. Contrary to what many people think, the discovery of unknown species is not at all rare. If you were to trek into a rarely visited tropical forest right now, you’d be pretty much guaranteed to find an organism that is unknown to science within a few hours. It’s unlikely to be a bird or mammal, but finding an insect or plant is not unreasonable. If you care to sink to the bottom of the deep sea in a submersible, then I’ll give you just a few minutes to find a new fish.
So, if there are still such riches to be discovered, what is the actual number of species on the planet? The sorry truth is that we have very little idea. A sensible estimate is probably around 10 million species, but an educated guess of 4 million is reasonable, while upwards of 100 million can be justified. A lot of the uncertainty stems from the fact that much of the planet is yet to be visited by teams of field biologists with their sampling nets and pickling jars. But the uncertainty is confounded by ongoing debate as to how species should be defined—when is one species really two similar species?¹—and by ambiguity as to which types of organisms we should include in our tally—certainly mammals, birds, plants, and insects, but add to the mix microbes such as bacteria, and our estimate will be pushed up by a vast, but almost entirely unknown, amount. So, we can’t be confident we’re even in the right ballpark when estimating how many species there actually are—but there sure are many.²
These are a lot of big numbers to begin the book with, but bear with me: we’re getting to know the stage on which the story will unfold. The myriad of species alive today represents the diversity of life on Earth, and it is this diversity—commonly referred to as our planet’s biodiversity
—that is of central interest in this book.
Another rough estimate is that only about one in a thousand of the species that have ever existed on Earth are still alive today.³ We can’t possibly know the proportion precisely, but the fossil record reveals that the vast majority of life forms that have ever been molded by evolution are long gone. The fossil record also reveals that many species went extinct during cataclysmic events scattered sporadically throughout Earth’s history. Most famously, 65 million years ago something—most likely a massive meteorite smashing into the Earth—drove the dinosaurs to extinction, and there have been at least five other mass extinction events over the last 600 million years, each of which took a major chunk out of the diversity of species living at the time.
Here’s my point: After each catastrophic event, it took evolution at least 10 million years to rebuild the former levels of diversity. That’s a mighty long time, meaningless on human time frames. As far as we’re concerned, the species alive today—however many millions there may be—are irreplaceable. Unless we put misguided faith in Jurassic Park–style technology to re-create extinct species from recovered strands of DNA, the current diversity of life is all we will ever have. It is the purpose of this book to assess the threat that climate change poses to this irreplaceable richness.
Climate clearly has a fundamentally important influence on nature, with species having adapted to live under certain conditions. For instance, emperor penguins have evolved a thick layer of blubber under their feathers to enable them to withstand some of the coldest temperatures on Earth, while their relatives, the Galápagos penguins, have been on an evolutionary diet to shed the insulation and survive in hot, equatorial climates. Likewise, you’re not going to find palm trees on a skiing vacation or alpine conifers during a desert island getaway.
But these are extreme examples of how the climate affects species—differences between climates don’t need to be so dramatic for us to see variation in species. Throughout nature, subtle differences in the climate have a major impact on the plants and animals that are found in a particular area.
Let’s take a brief look at the flora and fauna of Vietnam as an example. Vietnam provides a good illustration because it is orientated north–south and therefore covers a range of latitudes, giving a gentle climate gradient across the length of the country. The north is relatively cool, with cold, humid winters and occasional frost on high ground. Summers are hot and wet, with humidity reaching levels that make you feel not just muggy, but downright soaked. Moving farther south, the temperature begins to warm and seasonal differences become less pronounced, so that by the time you reach the Mekong Delta in the far south, temperatures remain warm and stable throughout the year. This north-south climate gradient is also mirrored across elevation changes in the country, with the environment becoming predictably cooler and wetter as you move into mountainous regions, such as central Vietnam’s Annamite Range.
These changes in climate are clearly reflected in the country’s biodiversity. Northern regions contain forests of cold-tolerant plants, including birch and walnut trees, and spectacular rhododendron flowers. This environment is home to a number of animals that are endemic to the region; that is, they are found nowhere else on the planet. These endemics include the Red-Throated Squirrel, the Tonkin Snub-Nosed Monkey, and the White-Eared Night Heron—each named because of its peculiar physical characteristics, and each restricted to this cool environment. Moving south, the northern assemblage of species is gradually replaced by plants and animals favoring warmer and less seasonal climates. Southern Vietnam’s biodiversity closely resembles that found in tropical regions, and includes a variety of species that are also often delightfully named to give us an insight into their most distinctive features: the Orange-Necked Partridge, the Grey-Faced Tit Babbler, and the Con Son Long-Tailed Macaque.⁴
Similar changes in species composition are evident along Vietnam’s elevation gradients, with more cold-tolerant species found in upland areas. Of course, patterns in the distributions of species in Vietnam, and elsewhere, are not solely the result of the climate. Other factors, including fluctuations in sea level and the movement of continents over very long periods of time, have also played their part in scattering species around the landscape. But it is clear that the climate has a fundamental influence on where species are distributed.
What if the climate changes? What if environments in the south of Vietnam become too hot for species like the Orange-Necked Partridge and the Con Son Long-Tailed Macaque, and conditions farther north become more suitable for these species? Are many species destined to become extinct as their local environment becomes unsuitable, or will species relocate in order to find suitable conditions elsewhere? And what about cold-tolerant species that are isolated on mountaintops—will they be left with nowhere to go if the climate warms?
Before we begin to tackle these questions, I want to first emphasize why the issues raised are extremely important.
Trillions of dollars
These days, it is easy to feel disconnected from nature, to be unaware of and to forget the multitude of ways that we are dependent on biodiversity. Biodiversity is not a superfluous luxury—something to be enjoyed on weekends and holidays, or through TV wildlife documentaries. In reality, biodiversity provides services that are essential for human well-being. These services include the recycling of wastes, purification of drinking water, and maintenance of soil fertility. Biodiversity is also the source of food, fuels, building materials, and many medicines. Massive loss of species due to climate change would undoubtedly have profound implications for many of these services. If we imagine that biodiversity acts like a huge machine—a dynamic, interconnected system with many parts—then like any machine, it is inconceivable that the system will continue to function properly if we remove a substantial number of its parts.
One way to try to assess the importance of biodiversity is to assign an economic value to it. Those studies that have attempted to do so—by estimating the monetary worth of each of the many services provided and then totaling for the entire globe—have invariably come up with astronomically high numbers, measured in tens of trillions of U.S. dollars and comparable to the size of the entire global economy.⁵ In truth, the economies of the world would grind to a halt without the services provided by biodiversity, so if climate change poses a threat to natural systems, then we should be more than a little concerned.
Of course, it is well known that our planet’s biodiversity is under assault from a wide variety of human activities. Perhaps the most obvious and serious threat comes from the destruction of natural habitats. We have transformed at least half of the ice-free land surface of the planet for human use, turning natural forests and prairies into agricultural systems, and converting wetlands and even deserts into cities and towns.⁶ The remaining isolated fragments of intact habitat cannot support the same diversity of life as large continuous expanses once did. Other major threats include the overharvesting of wild animals and plants for food, medicine, and building materials, and the (often accidental) introduction of non-native, invasive species in regions where they out-compete their local counterparts and drive endemic species to extinction.
A central point that I will emphasize in this book is that climate change should not be thought of as independent from other threats: it is the interaction of multiple threats that presents the biggest challenge to biodiversity. However, there are at least three key reasons why climate change presents unique challenges to conservation. First, climate change is a truly global phenomenon. Unlike other threats that may not affect a particular area, no region can expect to remain unaffected by the changing climate. For example, a nature preserve may be legally protected from habitat destruction and overexploitation, but climate change will not respect the preserve’s boundaries. Second, we are already committed to climate change throughout the twenty-first century. The climate system takes many years to adjust to new levels of atmospheric greenhouse gases, so even if we halted emissions today, the quantity of greenhouse gases already in the atmosphere will continue to cause warming for decades to come. By contrast, if the political and social will existed, we could halt many other threats much more rapidly. Third, it is anticipated that the impacts of climate change on biodiversity will creep up on us gradually over the coming decades. The impacts will tend to be less sudden and immediately obvious than those caused by other factors, making climate change a kind of stealth
threat. Society is likely to be slow to sense the danger if the changes seem gradual; instead, we tend to require a sudden jolt in order to provoke action to tackle an issue.⁷
Climate change catastrophe?
Climate change is one of the most challenging and controversial issues of our time. Much of the debate surrounding the issue revolves around the problem of uncertainty: How sure can we be that the climate is changing due to human activities? Are we certain that it will continue to get warmer? Most of the science we learn at school concerns neat, indisputable certainties, so it is sometimes difficult to appreciate that scientific frontiers are characterized by incomplete knowledge, debate, and by a healthy serving of uncertainty. To inform society about a pressing issue such as climate change, we must rely on weighing-up the available evidence and forming a consensus of opinions that best represents our current understanding.
In 1988, the United Nations responded to the need for a comprehensive and objective assessment of the climate change issue by establishing the Intergovernmental Panel on Climate Change (IPCC). The IPCC represents an immense collaboration between hundreds of experienced researchers from around the world, and although it has attracted controversy and criticism,⁸ the panel remains the most authoritative source of information on climate change. The