(15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China

The nitrogen isotope composition of plants (δ(15)N) can comprehensively reflect information on climate change and ecosystems’ nitrogen cycle. By collecting common herbs and soil samples along the 400 mm isoline of mean annual precipitation (MAP) in the agro-pastoral zone of North China (APZNC) and m...

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Autores principales: Liu, Xianzhao, Li, Yang, Zhang, Yong, Su, Qing, Feng, Teng, Song, Yan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9784019/
https://www.ncbi.nlm.nih.gov/pubmed/36559638
http://dx.doi.org/10.3390/plants11243526
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author Liu, Xianzhao
Li, Yang
Zhang, Yong
Su, Qing
Feng, Teng
Song, Yan
author_facet Liu, Xianzhao
Li, Yang
Zhang, Yong
Su, Qing
Feng, Teng
Song, Yan
author_sort Liu, Xianzhao
collection PubMed
description The nitrogen isotope composition of plants (δ(15)N) can comprehensively reflect information on climate change and ecosystems’ nitrogen cycle. By collecting common herbs and soil samples along the 400 mm isoline of mean annual precipitation (MAP) in the agro-pastoral zone of North China (APZNC) and measuring their δ(15)N values, the statistical characteristics of foliar δ(15)N of herbs and the responses of foliar δ(15)N to the MAP and mean annual temperature (MAT) were analyzed. The results showed that: (1) the δ(15)N values of all herbs investigated varied from −5.5% to 15.25%. Among them, the δ(15)N value range of C3 herbs (−5.5~15.00%) was wider than that of C4 herbs (−2.17~15.25%), but the average value (3.27%) of C3 herbs was significantly lower than that of C4 herbaceous plants (5.55%). This difference provides an important method for identifying plants of different photosynthetic types by nitrogen isotope technology. (2) Along the transect from northeast to southwest, the δ(15)N of both C3 and C4 herbs decreased with the increase in the MAP, but not significantly for C3 herbs. The inverse relationship between the nitrogen isotopic signatures of herbs and MAP is consistent with previous studies. However, the MAP in the APZNC is found to only explain a small amount of the observed variance in the δ(15)N herbs (C3 herbs: 10.40%; C4 herbs: 25.03%). (3) A strong negative relationship was found between δ(15)N of herbs and MAT across the transect (C3 herbs: −0.368%/°C; C4 herbs: −0.381%/°C), which was contrary to the global pattern and some regional patterns. There was no significant difference in the δ(15)N responses of two different photosynthetic herbs to temperature, but the effect of temperature on the variances of δ(15)N of C3 and C4 herbs was significantly greater than that of precipitation. This suggests that temperature is a key factor affecting foliar δ(15)N of herbs in this transect. The above findings may be of value to global change researchers studying the processes of the nitrogen cycle and gaining an insight into climate dynamics of the past.
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spelling pubmed-97840192022-12-24 (15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China Liu, Xianzhao Li, Yang Zhang, Yong Su, Qing Feng, Teng Song, Yan Plants (Basel) Article The nitrogen isotope composition of plants (δ(15)N) can comprehensively reflect information on climate change and ecosystems’ nitrogen cycle. By collecting common herbs and soil samples along the 400 mm isoline of mean annual precipitation (MAP) in the agro-pastoral zone of North China (APZNC) and measuring their δ(15)N values, the statistical characteristics of foliar δ(15)N of herbs and the responses of foliar δ(15)N to the MAP and mean annual temperature (MAT) were analyzed. The results showed that: (1) the δ(15)N values of all herbs investigated varied from −5.5% to 15.25%. Among them, the δ(15)N value range of C3 herbs (−5.5~15.00%) was wider than that of C4 herbs (−2.17~15.25%), but the average value (3.27%) of C3 herbs was significantly lower than that of C4 herbaceous plants (5.55%). This difference provides an important method for identifying plants of different photosynthetic types by nitrogen isotope technology. (2) Along the transect from northeast to southwest, the δ(15)N of both C3 and C4 herbs decreased with the increase in the MAP, but not significantly for C3 herbs. The inverse relationship between the nitrogen isotopic signatures of herbs and MAP is consistent with previous studies. However, the MAP in the APZNC is found to only explain a small amount of the observed variance in the δ(15)N herbs (C3 herbs: 10.40%; C4 herbs: 25.03%). (3) A strong negative relationship was found between δ(15)N of herbs and MAT across the transect (C3 herbs: −0.368%/°C; C4 herbs: −0.381%/°C), which was contrary to the global pattern and some regional patterns. There was no significant difference in the δ(15)N responses of two different photosynthetic herbs to temperature, but the effect of temperature on the variances of δ(15)N of C3 and C4 herbs was significantly greater than that of precipitation. This suggests that temperature is a key factor affecting foliar δ(15)N of herbs in this transect. The above findings may be of value to global change researchers studying the processes of the nitrogen cycle and gaining an insight into climate dynamics of the past. MDPI 2022-12-14 /pmc/articles/PMC9784019/ /pubmed/36559638 http://dx.doi.org/10.3390/plants11243526 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Liu, Xianzhao
Li, Yang
Zhang, Yong
Su, Qing
Feng, Teng
Song, Yan
(15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China
title (15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China
title_full (15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China
title_fullStr (15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China
title_full_unstemmed (15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China
title_short (15)N Natural Abundance of C3 and C4 Herbaceous Plants and Its Response to Climatic Factors along an Agro-Pastoral Zone of Northern China
title_sort (15)n natural abundance of c3 and c4 herbaceous plants and its response to climatic factors along an agro-pastoral zone of northern china
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9784019/
https://www.ncbi.nlm.nih.gov/pubmed/36559638
http://dx.doi.org/10.3390/plants11243526
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