Nitrogen and water availability interact to affect leaf stoichiometry in a semi-arid grassland

Xiao Tao Lü; De Liang Kong; Qing Min Pan; Matthew E. Simmons; Xing Guo Han

doi:10.1007/s00442-011-2097-7

Nitrogen and water availability interact to affect leaf stoichiometry in a semi-arid grassland

Xiao Tao Lü, De Liang Kong, Qing Min Pan, Matthew E. Simmons, Xing Guo Han

Research output: Contribution to journal › Article › peer-review

137 Scopus citations

Abstract

The effects of global change factors on the stoichiometric composition of green and senesced plant tissues are critical determinants of ecosystem feedbacks to anthropogenic-driven global change. So far, little is known about species stoichiometric responses to these changes. We conducted a manipulative field experiment with nitrogen (N; 17.5 gm ^-2 year ^-1) and water addition (180mm per growing season) in a temperate steppe of northern China that is potentially highly vulnerable to global change. A unique and important outcome of our study is that water availability modulated plant nutritional and stoichiometric responses to increased N availability. N addition significantly reduced C:N ratios and increased N:P ratios but only under ambient water conditions. Under increased water supply, N addition had no effect on C:N ratios in green and senesced leaves and N:P ratios in senesced leaves, and significantly decreased C:P ratios in both green and senesced leaves and N:P ratios in green leaves. Stoichiometric ratios varied greatly among species. Our results suggest that N and water addition and species identity can affect stoichiometric ratios of both green and senesced tissues through direct and interactive means. Our findings highlight the importance of water availability in modulating stoichiometric responses of plants to potentially increased N availability in semi-arid grasslands.

Original language	English (US)
Pages (from-to)	301-310
Number of pages	10
Journal	Oecologia
Volume	168
Issue number	2
DOIs	https://doi.org/10.1007/s00442-011-2097-7
State	Published - Feb 2012
Externally published	Yes

Bibliographical note

Funding Information:
Acknowledgments We thank the staV of the Inner Mongolia Grassland Ecosystem Research Station (IMGERS) for facilitating this study. We gratefully acknowledge Weijun Wu, Yongsheng Jin and Qiang Li for Weld and laboratory assistance. We also wish to thank Andrea Polle and three anonymous reviewers who provided valuable comments and suggestions. This work was supported by The Knowledge Innovation Project of CAS (No. KZCX2-YW-T06), the Ministry of Science and Technology (2007CB106801), and the National Natural Science Foundation of China (30830026 and 30821062).

Keywords

C:N:P
Precipitation regime
Senesced leaves
Steppe
Stoichiometric ratios

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Nitrogen and water availability interact to affect leaf stoichiometry in a semi-arid grassland",

abstract = "The effects of global change factors on the stoichiometric composition of green and senesced plant tissues are critical determinants of ecosystem feedbacks to anthropogenic-driven global change. So far, little is known about species stoichiometric responses to these changes. We conducted a manipulative field experiment with nitrogen (N; 17.5 gm -2 year -1) and water addition (180mm per growing season) in a temperate steppe of northern China that is potentially highly vulnerable to global change. A unique and important outcome of our study is that water availability modulated plant nutritional and stoichiometric responses to increased N availability. N addition significantly reduced C:N ratios and increased N:P ratios but only under ambient water conditions. Under increased water supply, N addition had no effect on C:N ratios in green and senesced leaves and N:P ratios in senesced leaves, and significantly decreased C:P ratios in both green and senesced leaves and N:P ratios in green leaves. Stoichiometric ratios varied greatly among species. Our results suggest that N and water addition and species identity can affect stoichiometric ratios of both green and senesced tissues through direct and interactive means. Our findings highlight the importance of water availability in modulating stoichiometric responses of plants to potentially increased N availability in semi-arid grasslands.",

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note = "Funding Information: Acknowledgments We thank the staV of the Inner Mongolia Grassland Ecosystem Research Station (IMGERS) for facilitating this study. We gratefully acknowledge Weijun Wu, Yongsheng Jin and Qiang Li for Weld and laboratory assistance. We also wish to thank Andrea Polle and three anonymous reviewers who provided valuable comments and suggestions. This work was supported by The Knowledge Innovation Project of CAS (No. KZCX2-YW-T06), the Ministry of Science and Technology (2007CB106801), and the National Natural Science Foundation of China (30830026 and 30821062).",

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N2 - The effects of global change factors on the stoichiometric composition of green and senesced plant tissues are critical determinants of ecosystem feedbacks to anthropogenic-driven global change. So far, little is known about species stoichiometric responses to these changes. We conducted a manipulative field experiment with nitrogen (N; 17.5 gm -2 year -1) and water addition (180mm per growing season) in a temperate steppe of northern China that is potentially highly vulnerable to global change. A unique and important outcome of our study is that water availability modulated plant nutritional and stoichiometric responses to increased N availability. N addition significantly reduced C:N ratios and increased N:P ratios but only under ambient water conditions. Under increased water supply, N addition had no effect on C:N ratios in green and senesced leaves and N:P ratios in senesced leaves, and significantly decreased C:P ratios in both green and senesced leaves and N:P ratios in green leaves. Stoichiometric ratios varied greatly among species. Our results suggest that N and water addition and species identity can affect stoichiometric ratios of both green and senesced tissues through direct and interactive means. Our findings highlight the importance of water availability in modulating stoichiometric responses of plants to potentially increased N availability in semi-arid grasslands.

AB - The effects of global change factors on the stoichiometric composition of green and senesced plant tissues are critical determinants of ecosystem feedbacks to anthropogenic-driven global change. So far, little is known about species stoichiometric responses to these changes. We conducted a manipulative field experiment with nitrogen (N; 17.5 gm -2 year -1) and water addition (180mm per growing season) in a temperate steppe of northern China that is potentially highly vulnerable to global change. A unique and important outcome of our study is that water availability modulated plant nutritional and stoichiometric responses to increased N availability. N addition significantly reduced C:N ratios and increased N:P ratios but only under ambient water conditions. Under increased water supply, N addition had no effect on C:N ratios in green and senesced leaves and N:P ratios in senesced leaves, and significantly decreased C:P ratios in both green and senesced leaves and N:P ratios in green leaves. Stoichiometric ratios varied greatly among species. Our results suggest that N and water addition and species identity can affect stoichiometric ratios of both green and senesced tissues through direct and interactive means. Our findings highlight the importance of water availability in modulating stoichiometric responses of plants to potentially increased N availability in semi-arid grasslands.

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Nitrogen and water availability interact to affect leaf stoichiometry in a semi-arid grassland

Abstract

Bibliographical note

Keywords

UN SDGs

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