Climate change, predators, and the trickle down effects on ecosystems

Ecologists are just beginning to understand how the impacts of climate change are affecting predatory keystone species and their ecosystems. Ecologists will report on this and other climate-ecosystem research news at the Ecological Society of America’s 2014 Annual Meeting in Sacramento, Cal., August 10–15.

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99th Annual Meeting
The Ecological Society of America

FOR IMMEDIATE RELEASE: Monday, August 4, 2014
Contact: Alison Mize (703) -625-3628; gro.asenull@nosila
Liza Lester (202) 833-8773 x 211; gro.asenull@retsell

 

Predators play important roles in maintaining diverse and stable ecosystems. Climate change can push species to move in order to stay in their climatic comfort zones, potentially altering where species live and how they interact, which could fundamentally transform current ecosystems.

A symposium focusing on climate’s effects on predators—causing cascading effects on whole ecosystems — will take place on Tuesday, August 12th during the Ecological Society of America’s 99th Annual Meeting, held this year in Sacramento, California.

There will be “winners” and “losers” as species adapt to a changing climate. Ecologists are just beginning to understand why different competitors may be favored by climate change and how consumer-resource interactions are modified. Impacts on one species can affect many organisms in an ecosystem. Because predator species are animals that survive by preying on other organisms, they send ripples throughout the food web, regulating the effects other animals have on that ecosystem. This cause and effect process is called a “trophic cascade,” or the progression of direct and indirect effects predators have across lower levels in a food chain.

Sea otters consume sea urchins and help keep the undersea kelp forest healthy. Credit, Vancouver Aquarium

Sea otters consume sea urchins and help keep the undersea kelp forest healthy. Credit, Vancouver Aquarium.

Sea otter populations provide a historical example of this phenomenon. The fur trade spanning the late 1700s to early 1900s decimated their numbers across their range, from Alaska to Baja California, Mexico. Populations went from an estimated several hundred-thousand to more than a million down to 1,000–2,000. Today, there are estimated to be just over 106,000 worldwide, with just under 3,000 in California. Now sea otters and other important predator species face the challenges of a changing climate.

“The near extinction of sea otters is one of the most dramatic examples of human-induced impacts to the structure and functioning of temperate nearshore marine ecosystems,” said Rebecca G. Martone, of the Center for Ocean Solutions at Stanford University.

In the U.S., there are two distinct sea otter subspecies, the Northern sea otter (Enhydra lutris kenyoni) and the Southern sea otter (Enhydra lutris nereis). Northern sea otters are found in the Aleutian Islands, Southern Alaska, British Columbia, and Washington. Southern sea otters, also known as California sea otters, live in the waters along the California coastline and range from San Mateo County in the north to Santa Barbara County in the south.

Sea otters live offshore in forests of kelp—huge, yellow-brown, rubbery seaweed reaching from the sea floor to the surface, like tall trees. In coastal North America, sea otters help maintain healthy kelp forests, which benefits other marine species dependent on this habitat.

Sea otters must eat about 25% of their body weight daily to maintain their body temperature since unlike other marine mammals they rely solely on their fur rather than an extra layer of blubber to stay warm—it’s like a 120-pound human eating 30 pounds of food per day. Some of otters’ favorites are abalone, clams, crabs, mussels, shrimp, and sea urchins. Few predators can crack the globe-shaped spiny urchins, which in unchecked hordes will chew through the holdfasts of the kelp, leaving vast barrens in place of the vibrant forests. The otter is a “keystone predator” whose presence has an outsized effect on its kelp forest habitat.

Without sea otters, the undersea sea urchins they prey on would devour the kelp forests, resulting in dense areas called sea urchin barrens that have lower biodiversity due to the loss of kelp that provide 3-dimensional habitat and a food source for many species. Researchers found that when sea otters arrive in an area from which they have been absent, they begin feasting on urchins. As a result, the kelp forest begins to grow back, changing the structure of kelp forest communities.

Many fish, marine mammals and birds are also found in kelp forest communities, including rockfish, seals, sea lions, whales, gulls, terns, snowy egrets as well as some shore birds. Otters might also offer a defense against climate change because healthy kelp forests can grow rapidly and store large amounts of carbon.

Dr. Martone’s analyses of the effects of sea otters on kelp forest ecosystems can help shape predictions of how climate change and trophic cascades, in concert with other drivers, affect coastal ecosystems. The ecological impacts of a changing climate are evident, from terrestrial polar regions to tropical marine environments. Ecologists’ research into the tropic cascading effects of predators will assist decision makers by providing important scientific findings to prepare for the impacts of climate change occurring now and into the future. Speakers for the symposia include marine, freshwater and terrestrial experimental ecologists who will present their research and offer insights from different approaches used to studying consumer-resource interactions.

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Ecological Society of America’s 99th Annual Meeting, August 10–15th, 2014, in Sacramento, Cal.

Main * Program * Press Information * App

Symposium 9:  From Oceans to Mountains:  Using Abiotic Gradients to Investigate the Effects of Climate on the Cascading Effects of Predators
Tuesday, August 12, 2014; 1:30 PM–5:00 PM; Magnolia, Sheraton Hotel
Organizer: William L. Harrower
Co-organizer: Mary I. O’Connor

1:30 PM SYMP 9-1 Ecological stoichiometry: A chemical approach to understanding trophic interactions across spatial gradients
Angélica L. González, University of British Columbia; Rana W. El-Sabaawi, University of Victoria

2:00 PM SYMP 9-2:  Spatial and temporal patterns of trophic control across marine ecosystems
Daniel Boyce, Queen’s University and The Bedford Institute of Oceanography; William Leggett, Queens University; Brian Petrie, Bedford Institute of Oceanography; Boris Worm, Dalhousie University; Kenneth T. Frank, Department of Fisheries and Oceans

2:30 PM SYMP 9-3:  Ecological responses to predators and temperature in California mountain lakes
Celia C. Symons, University of California- San Diego; Jonathan B. Shurin, University of California- San Diego

3:10 PM SYMP 9-4:  Space use patterns and tropic interactions among woodland caribou, wolves, and moose across an anthropogenic disturbance gradient
John M. Fryxell, University of Guelph; Tal Avgar, University of Alberta; Anna Mosser, University of Minnesota; Andrew Kittle, University of Guelph; Garrett Street, University of Guelph; Madeleine Mcgreer, University of Guelph; Erin Mallon, University of Guelph; Ian D. Thompson, Canadian Forest Service; Arthur R. Rodgers, Ontario Ministry of Natural Resources; Brent Patterson, Ontario Ministry of Natural Resources; Glen S. Brown, Ontario Ministry of Natural Resources; Doug Reid, Ontario Ministry of Natural Resources; Merritt R. Turetsky, University of Guelph

3:40 PM SYMP 9-5:  Indirect effects of sea otter-driven trophic cascades vary across environmental and anthropogenic gradients
Rebecca G. Martone, Stanford University; Russell W. Markel, University of British Columbia; Gerald Singh, University of British Columbia

4:10 PM SYMP 9-6:  Trophic cascades and detrital subsidies in montane temperate grasslands
William L. Harrower, University of British Columbia; Lauchlan H. Fraser, Thompson Rivers University; Roy Turkington, University of British Columbia

4:40 PM SYMP 9- Panel Discussion

 

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