State changes: insights from the U.S. Long Term Ecological Research Network

Julie C. Zinnert; Jesse B. Nippert; Jennifer A. Rudgers; Steven C. Pennings; Grizelle González; Merryl Alber; Sara G. Baer; John M. Blair; Adrian Burd; Scott L. Collins; Christopher Craft; Daniela Di Iorio; Walter K. Dodds; Peter M. Groffman; Ellen Herbert; Christine Hladik; Fan Li; Marcy E. Litvak; Seth Newsome; John O’Donnell; William T. Pockman; John Schalles; Donald R. Young

doi:10.1002/ecs2.3433

Ecosphere (May 2021)

State changes: insights from the U.S. Long Term Ecological Research Network

Julie C. Zinnert,
Jesse B. Nippert,
Jennifer A. Rudgers,
Steven C. Pennings,
Grizelle González,
Merryl Alber,
Sara G. Baer,
John M. Blair,
Adrian Burd,
Scott L. Collins,
Christopher Craft,
Daniela Di Iorio,
Walter K. Dodds,
Peter M. Groffman,
Ellen Herbert,
Christine Hladik,
Fan Li,
Marcy E. Litvak,
Seth Newsome,
John O’Donnell,
William T. Pockman,
John Schalles,
Donald R. Young

Affiliations

Julie C. Zinnert: Department of Biology Virginia Commonwealth University 1000 West Cary Street Richmond Virginia23284USA
Jesse B. Nippert: Division of Biology Kansas State University Manhattan Kansas66506USA
Jennifer A. Rudgers: Department of Biology University of New Mexico Albuquerque New Mexico87131USA
Steven C. Pennings: Department of Biology and Biochemistry University of Houston Houston Texas77204USA
Grizelle González: International Institute of Tropical Forestry United States Department of Agriculture, Forest Service Jardín Botánico Sur, 1201 Ceiba St.‐Río Piedras San Juan00926Puerto Rico
Merryl Alber: Department of Marine Sciences University of Georgia Athens Georgia30602USA
Sara G. Baer: Kansas Biological Survey and Department of Ecology and Evolutionary Biology University of Kansas Lawrence Kansas66047USA
John M. Blair: Division of Biology Kansas State University Manhattan Kansas66506USA
Adrian Burd: Department of Marine Sciences University of Georgia Athens Georgia30602USA
Scott L. Collins: Department of Biology University of New Mexico Albuquerque New Mexico87131USA
Christopher Craft: School of Public and Environmental Affairs Indiana University Bloomington Indiana47405USA
Daniela Di Iorio: Department of Marine Sciences University of Georgia Athens Georgia30602USA
Walter K. Dodds: Division of Biology Kansas State University Manhattan Kansas66506USA
Peter M. Groffman: City University of New York Advanced Science Research Center at the Graduate Center New York New York10031USA
Ellen Herbert: Ducks Unlimited Memphis Tennessee38120USA
Christine Hladik: Department of Geology and Geography Georgia Southern University Statesboro Georgia30460USA
Fan Li: Department of Biology and Biochemistry University of Houston Houston Texas77204USA
Marcy E. Litvak: Department of Biology University of New Mexico Albuquerque New Mexico87131USA
Seth Newsome: Department of Biology University of New Mexico Albuquerque New Mexico87131USA
John O’Donnell: Department of Biology Creighton University Omaha Nebraska68178USA
William T. Pockman: Department of Biology University of New Mexico Albuquerque New Mexico87131USA
John Schalles: Department of Biology Creighton University Omaha Nebraska68178USA
Donald R. Young: Department of Biology Virginia Commonwealth University 1000 West Cary Street Richmond Virginia23284USA

DOI: https://doi.org/10.1002/ecs2.3433
Journal volume & issue: Vol. 12, no. 5
pp. n/a – n/a

Abstract

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Abstract Understanding the complex and unpredictable ways ecosystems are changing and predicting the state of ecosystems and the services they will provide in the future requires coordinated, long‐term research. This paper is a product of a U.S. National Science Foundation funded Long Term Ecological Research (LTER) network synthesis effort that addressed anticipated changes in future populations and communities. Each LTER site described what their site would look like in 50 or 100 yr based on long‐term patterns and responses to global change drivers in each ecosystem. Common themes emerged and predictions were grouped into state change, connectivity, resilience, time lags, and cascading effects. Here, we report on the “state change” theme, which includes examples from the Georgia Coastal (coastal marsh), Konza Prairie (mesic grassland), Luquillo (tropical forest), Sevilleta (arid grassland), and Virginia Coastal (coastal grassland) sites. Ecological thresholds (the point at which small changes in an environmental driver can produce an abrupt and persistent state change in an ecosystem quality, property, or phenomenon) were most commonly predicted. For example, in coastal ecosystems, sea‐level rise and climate change could convert salt marsh to mangroves and coastal barrier dunes to shrub thicket. Reduced fire frequency has converted grassland to shrubland in mesic prairie, whereas overgrazing combined with drought drive shrub encroachment in arid grasslands. Lastly, tropical cloud forests are susceptible to climate‐induced changes in cloud base altitude leading to shifts in species distributions. Overall, these examples reveal that state change is a likely outcome of global environmental change across a diverse range of ecosystems and highlight the need for long‐term studies to sort out the causes and consequences of state change. The diversity of sites within the LTER network facilitates the emergence of overarching concepts about state changes as an important driver of ecosystem structure, function, services, and futures.

Published in Ecosphere

ISSN: 2150-8925 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Ecology
Website: http://esajournals.onlinelibrary.wiley.com/hub/journal/10.1002/(ISSN)2150-8925/

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