JOURNAL ARTICLE
Stronger Response of Plant N:P to Nitrogen Enrichment When Considering Roots.
Published In: Global Change Biology, 2025, v. 31, n. 2. P. 1 1 of 3
Database: Academic Search Ultimate 2 of 3
Authored By: Ning, Yu; Dijkstra, Feike A.; Liang, Xiao‐Sa; Zhang, Xiao‐Jing; Yang, Guo‐Jiao; Jiang, Liang‐Chao; Han, Xing‐Guo; Lü, Xiao‐tao 3 of 3
Abstract
Nitrogen (N) enrichment leads to an imbalance of N and phosphorus (P) in plants by enhancing plant N:P, with consequences for ecosystem processes and function. However, the evidence for a plant N–P imbalance is predominantly from studies on aboveground tissues. It remains unclear whether imbalanced aboveground responses would be paralleled by similar responses in roots, which contribute to nearly 70% of total biomass in grasslands globally. We measured community‐level N:P stoichiometry of both shoots and roots to 1 m depth across a wide‐ranging N addition gradient in a temperate steppe after 7–9 years of treatment. Both shoot N:P (SNP) and root N:P (RNP) showed nonlinear responses to increasing N addition rates, where N:P first increased and then saturated. RNP was significantly higher than SNP and saturated at higher N addition rates than SNP (39.0 vs. 16.8 g N m−2 yr.−1). Furthermore, the inter‐annual stability of RNP was higher than that of SNP. Consequently, N:P in whole plants was higher than that in shoots, indicating more severe N–P imbalance than based on shoot measurements only. Previous results from aboveground parts might have underestimated the enhancement of N enrichment on plant N:P. Our results imply that belowground food webs with roots as their food resource would be more severely suffering from N–P imbalance than aboveground food webs. [ABSTRACT FROM AUTHOR]
Additional Information
- Source:Global Change Biology. 2025/02, Vol. 31, Issue 2, p1
- Document Type:Article
- Subject Area:Chemistry
- Publication Date:2025
- ISSN:1354-1013
- DOI:10.1111/gcb.70091
- Accession Number:183688512
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