Potential Contribution of Respiration by Anabrus simplex (Mormon crickets) to Net CO2 Exchange in Three Great Basin Ecosystems

Authors

A. Joshua Leffler, Utah State UniversityFollow
Michael S. Peek, Utah State University
Larry Hipps, Utah State University
Sasha Ivans, Utah State University
Ronald J. Ryel, Utah State UniversityFollow
Martyn M. Caldwell, Utah State University

Document Type

Article

Journal/Book Title/Conference

Western North American Naturalist

Volume

67

Issue

1

Publisher

Brigham Young University

Publication Date

2007

First Page

109

Last Page

119

Abstract

Disturbance events can significantly influence net CO2 exchange (NCE) in ecosystems. High densities of Anabrus simplex (Mormon crickets) periodically afflict large areas of the western USA; their sheer numbers could make them a significant source of CO2. We modeled cricket respiration at the ecosystem level using air and body temperatures and insect gas exchange measurements. Cricket CO2 efflux values were compared to ecosystem CO2 flux from eddy covariance measurements in 3 Great Basin ecosystems: a juniper woodland, a sagebrush shrubland, and a crested wheatgrass pasture. Mean respiration from Mormon crickets was 0.96 g CO2 ⋅ m–2d–1. Since Mormon crickets are present when NCE is otherwise near 0, they can potentially alter NCE between 20% (juniper woodland) and 60% (crested wheatgrass pasture). Transient pests such as Mormon crickets can be an important component of NCE.

Comments

Originally published by Brigham Young University. Publisher's PDF available through remote link.

Recommended Citation

Leffler AJ, Peek MS, Hipps L, Ivans S, Ryel RJ, Caldwell MM (2007) Potential contribution of respiration by Anabrus simplex (Mormon crickets) to net CO2 exchange in three Great Basin ecosystems. Western North American Naturalist 67:109-119.