The importance of testing multiple environmental factors in legume–insect research: replication, reviewers, and rebuttal

Article

Johnson, Scott N., Gherlenda, Andrew N., Frew, Adam and Ryalls, James M. W.. 2016. "The importance of testing multiple environmental factors in legume–insect research: replication, reviewers, and rebuttal." Frontiers in Plant Science. 7 (489), pp. 1-4. https://doi.org/10.3389/fpls.2016.00489
Article Title

The importance of testing multiple environmental factors in legume–insect research: replication, reviewers, and rebuttal

ERA Journal ID200524
Article CategoryArticle
AuthorsJohnson, Scott N. (Author), Gherlenda, Andrew N. (Author), Frew, Adam (Author) and Ryalls, James M. W. (Author)
Journal TitleFrontiers in Plant Science
Journal Citation7 (489), pp. 1-4
Number of Pages4
Year2016
PublisherFrontiers Media SA
Place of PublicationSwitzerland
ISSN1664-462X
Digital Object Identifier (DOI)https://doi.org/10.3389/fpls.2016.00489
Web Address (URL)https://www.frontiersin.org/articles/10.3389/fpls.2016.00489/full
Abstract

Investigating the impacts of predicted changes in our atmosphere and climate change on insect–plant interactions is a widely pursued area of research. To date, the majority of experimental studies have tested the impacts of single environmental factors on insect–plant interactions, but meta-analyses have clearly illustrated the importance of investigating multiple factors in tandem (Zvereva and Kozlov, 2006; Robinson et al., 2012). In particular, environmental change factors often interact with each other which can either strengthen or mitigate the effects of environmental factors acting alone (Robinson et al., 2012). For example, the positive effects of elevated atmospheric carbon dioxide concentrations (e [CO2]) on plant growth are stronger under high nitrogen (N) conditions compared to low N conditions (+ 32 and+ 19%, respectively; Robinson et al., 2012). Likewise, from the limited number of studies available, Robinson et al.(2012) showed that e [CO2] had different impacts on plant nitrogen, plant biomass, and secondary metabolites under elevated air temperature (eT) conditions. This does not invalidate single factor studies, of which we have published numerous examples, but this is an important consideration for making realistic predictions about how plants and insects will respond to future climates (Facey et al., 2014).

Keywordsatmospheric change; biological nitrogen fixation; climate change; insect-plant interactions; legumes; pastures
ANZSRC Field of Research 2020310399. Ecology not elsewhere classified
310899. Plant biology not elsewhere classified
410404. Environmental management
Byline AffiliationsWestern Sydney University
University of Western Sydney
Institution of OriginUniversity of Southern Queensland
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