 Effects of Nitrogen Deposition and Precipitation Patterns on Nitrogen Allocation of Mongolian Pine ( Pinus sylvestris var. mongolica ) on Sandy Land Using 15 N IsotopeTianhong Zhao,
Shihao Cheng,
Qun Gang,
Yonghui Zhuang and
Xianjin Zhu ()
Agriculture, 2024, vol. 14, issue 8, 1-17 Abstract: In the context of global climate change, atmospheric nitrogen deposition is increasing, and precipitation patterns are becoming more variable. This study examines the impact of these changes on nitrogen (N) allocation mechanisms in semi-arid region tree species using one-year-old Mongolian pine ( Pinus sylvestris var. mongolica ) seedlings. The seedlings were planted in soil collected from the Daqinggou Sandy Ecological Experiment Station (42°54′ N, 122°25′ E). Three moisture treatments were applied (WC (normal moisture, approximately 65% ± 2.5% of the field capacity), WI (30% increased moisture), and WD (30% decreased moisture)), as well as three nitrogen treatments (NC (no nitrogen), NL (5 g·m −2 ·y −1 nitrogen), and NH (10 g·m −2 ·y −1 nitrogen)). The seedlings were sprayed with a 15 N-labeled CH 4 N 2 O solution (46% N, 15 N abundance 10.14%) in a pot trial, with samples taken in August and October to measure N content and 15 N abundance in the seedling organs and the soil. Parameters such as N dff (%) (the percentage of nitrogen derived from fertilizer), nitrogen content of organs, 15 N absorption in organs, and 15 N distribution ratio were calculated. The results showed that 15 N allocation in seedlings followed the trend leaves > stems > roots. Under moisture treatments, 15 N allocation ratios in leaves, stems, and roots were 63.63–71.42%, 14.89–24.14%, and 12.23–14.88% under low nitrogen, and 62.63–77.83%, 13.35–22.90%, and 7.31–19.18% under high nitrogen. Significant correlations were found in 15 N abundance among the seedling organs, with coefficients ranging from 0.97 to 1.00. The main effects of moisture and nitrogen, as well as their interaction, significantly impacted 15 N abundance in the seedling organs. Changes in moisture levels affected the nitrogen absorption capacity of Mongolian pine. Increased moisture significantly enhanced 15 N absorption in all organs, leading to 62.63–71.42% of 15 N being allocated to the leaves, maintaining an appropriate proportion with the roots and stems. Nitrogen deposition altered the nitrogen allocation strategy among different organs of Mongolian pine. Under conditions of reduced moisture and low nitrogen, a greater proportion of nitrogen was captured by the roots and stems, with an allocation increase of approximately 4.98–5.77% compared to the control group, thereby mitigating the adverse effects of water deficiency. In conditions of reduced moisture and high nitrogen, the leaves, being active organs, accumulated more limiting elements, with an increase in nitrogen allocation of 2.03–8.07% compared to the control group. To achieve an optimal allocation strategy, moderate nitrogen deposition combined with increased moisture enhanced nitrogen uptake in Mongolian pine seedlings. This study provides scientific evidence for ecological restoration, wind erosion control, and agricultural and forestry management in semi-arid regions under the context of global climate change. Keywords: nitrogen deposition; precipitation pattern; sandy Mongolian pine; 15 N; nitrogen allocation (search for similar items in EconPapers) Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:gam:jagris:v:14:y:2024:i:8:p:1367-:d:1457084 Access Statistics for this article Agriculture is currently edited by Ms. Leda Xuan More articles in Agriculture from MDPI |
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