Effects of nitrogen addition and drought on the relationship between nitrogen- and water-use efficiency in a temperate grassland
Background Nitrogen- and water-use efficiency (NUE and WUE) reflect the capacity of plants to take up and utilize resources in the environments. Although N deposition and drought are known to affect plant growth and persistence, it remains elusive how plants adjust NUE, WUE and their relationship to...
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Published in | Ecological processes Vol. 12; no. 1; pp. 36 - 13 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.12.2023
Springer Nature B.V SpringerOpen |
Subjects | |
Online Access | Get full text |
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Summary: | Background
Nitrogen- and water-use efficiency (NUE and WUE) reflect the capacity of plants to take up and utilize resources in the environments. Although N deposition and drought are known to affect plant growth and persistence, it remains elusive how plants adjust NUE, WUE and their relationship to adapt to the concurrent N deposition and drought under the context of global change. We conducted a field experiment in a temperate grassland in Inner Mongolia, in which N addition (10 g m
–
2
yr
−1
), drought (reduced 66% precipitation during growing season) and their combination were manipulated, and we explored the responses of both instantaneous (NUE
INST
and WUE
INST
) and long-term (NUE
LT
and WUE
LT
) WUE and NUE for six common plant species (
Leymus chinensis
,
Stipa baicalensis
,
Thermopsis lanceolata
,
Potentilla bifurca
,
Thalictrum squarrosum
,
Klasea centauroide
).
Results
Across all the six species, NUE
INST
decreased and WUE
INST
increased with both N addition and drought; NUE
LT
decreased with both N addition and drought, while WUE
LT
decreased with N addition and increased with drought. A significant interactive effect between N addition and drought was detected, in that, drought weakened the negative effect of N addition on WUE
LT
and NUE
LT
, and N addition weakened the negative effect of drought on NUE
LT
, but enhanced the positive effect of drought on WUE
LT
. As a consequence, drought caused a trade-off between NUE and WUE, and N addition brought forth positive correlation between NUE and WUE. Meanwhile, the relationship between NUE and WUE varied among the species of different functional groups.
Conclusions
Our study demonstrated that NUE, WUE and their relationship play an important role in determining their responses and adaptability to changes in soil nitrogen and water availability induced by N deposition and drought. Our results shed light on the antagonistic, synergetic and neutral effects between nitrogen deposition and drought on resource use efficiency, and further clarified the different adaptability among species of different functional groups, which will conduce to a comprehensive understanding on the role of NUE and WUE in plant persistence and coexistence in grassland ecosystems. |
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ISSN: | 2192-1709 2192-1709 |
DOI: | 10.1186/s13717-023-00448-7 |