Negative effects of vertebrate on invertebrate herbivores mediated by enhanced plant nitrogen content
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In: Journal of Ecology, Vol. 107, No. 2, 03.2019, p. 901-912.
Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Negative effects of vertebrate on invertebrate herbivores mediated by enhanced plant nitrogen content
AU - Zhu, Yu
AU - Zhong, Zhiwei
AU - Pages, Jordi F.
AU - Finke, Deborah
AU - Wang, Deli
AU - Ma, Quanhui
AU - Hassan, Nazim
AU - Wang, Ling
AU - Zhu, Hui
N1 - This is the peer reviewed version of the following article: Zhu Y, Zhong Z, Pagès JF, et al.Negative effects of vertebrate on invertebrate herbivoresmediated by enhanced plant nitrogen content. J Ecol. 2018;00:1–12., which has been published in final form at https://doi.org/10.1111/1365-2745.13100. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions.
PY - 2019/3
Y1 - 2019/3
N2 - 1. Classic theory holds that the main interaction within the herbivore guild is competition, based on research focused on co-occurring, similarly-sized species that reduce the quantity of shared plant resources. However, plant quality may also be crucial in mediating herbivore interspecific interactions. This is especially true when competition occurs between distantly-related herbivore species, given that small terrestrial herbivores (e.g. insect herbivores) appear to be more sensitive to alterations of plant quality than plant quantity.2. In this study, we first tested in the field whether large vertebrate herbivores (cattle Bos taurus) exerted a negative effect on smaller insect herbivores (grasshopper Euchorthippus unicolor) through their overlapping foraging preferences for a dominant grass Leymus chinensis. We measured changes in grass quantity, grass quality, and microclimatic conditions in response to vertebrate grazing and conducted additional manipulative studies in the field and the laboratory to identify potential mechanisms underlying the interaction.3. Our results showed that grazing by large herbivores caused a significant decline in grasshopper population density and individual performance (survival, size and weight of both female and male E. unicolor), despite a 38% increase in grass nitrogen (N) content in grazed plots. Experiments manipulating N levels of L. chinensis in the field and the laboratory confirmed that enriching plant N had a negative effect on grasshopper individual performance and population size. Therefore, enhanced quality (N content) of plant resources appears to be an important driver in mediating the negative effect of vertebrate grazing on grasshoppers.4. Synthesis. We document that phylogenetic relatedness and trait similarity can be poor predictors of interaction strength in some cases, since distantly related herbivores of disparate size can interact indirectly via changes in plant quality. Counter-intuitively, the observed negative effect of cattle on grasshoppers was mediated, at least in part, by an increase in plant quality in cattle grazed areas. The implication is that light to moderate grazing, a common management strategy, may contribute to suppression of grasshoppers in the Eurasian steppe grassland system by altering plant nutrient supplies.
AB - 1. Classic theory holds that the main interaction within the herbivore guild is competition, based on research focused on co-occurring, similarly-sized species that reduce the quantity of shared plant resources. However, plant quality may also be crucial in mediating herbivore interspecific interactions. This is especially true when competition occurs between distantly-related herbivore species, given that small terrestrial herbivores (e.g. insect herbivores) appear to be more sensitive to alterations of plant quality than plant quantity.2. In this study, we first tested in the field whether large vertebrate herbivores (cattle Bos taurus) exerted a negative effect on smaller insect herbivores (grasshopper Euchorthippus unicolor) through their overlapping foraging preferences for a dominant grass Leymus chinensis. We measured changes in grass quantity, grass quality, and microclimatic conditions in response to vertebrate grazing and conducted additional manipulative studies in the field and the laboratory to identify potential mechanisms underlying the interaction.3. Our results showed that grazing by large herbivores caused a significant decline in grasshopper population density and individual performance (survival, size and weight of both female and male E. unicolor), despite a 38% increase in grass nitrogen (N) content in grazed plots. Experiments manipulating N levels of L. chinensis in the field and the laboratory confirmed that enriching plant N had a negative effect on grasshopper individual performance and population size. Therefore, enhanced quality (N content) of plant resources appears to be an important driver in mediating the negative effect of vertebrate grazing on grasshoppers.4. Synthesis. We document that phylogenetic relatedness and trait similarity can be poor predictors of interaction strength in some cases, since distantly related herbivores of disparate size can interact indirectly via changes in plant quality. Counter-intuitively, the observed negative effect of cattle on grasshoppers was mediated, at least in part, by an increase in plant quality in cattle grazed areas. The implication is that light to moderate grazing, a common management strategy, may contribute to suppression of grasshoppers in the Eurasian steppe grassland system by altering plant nutrient supplies.
U2 - 10.1111/1365-2745.13100
DO - 10.1111/1365-2745.13100
M3 - Article
VL - 107
SP - 901
EP - 912
JO - Journal of Ecology
JF - Journal of Ecology
SN - 0022-0477
IS - 2
ER -