Effect of orchard age on soil nitrogen transformation in subtropical China and implications

A better understanding of nitrogen transformation in soils could reveal the capacity for biological inorganic N supply and improve the efficiency of N fertilizers. In this study, a15 N tracing study was carried out to investigate the effects of converting woodland to orchard, and orchard age on the...

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Veröffentlicht in:	Journal of environmental sciences (China) 2015-08, Vol.34 (8), p.10-19
Hauptverfasser:	Zhang, Yushu, Zhang, Jinbo, Zhu, Tongbin, Müller, Christoph, Cai, Zucong
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Sprache:	eng
Schlagworte:	15N tracing technique Agriculture China Citrus Citrus - growth & development Environment Environmental Monitoring Fertilizers - analysis Forests Gross rates of nitrogen transformation Nitrification Nitrogen - metabolism Nitrogen Isotopes - analysis Soil - chemistry Subtropical orchard soil 中国东部亚热带土壤土壤有机碳土壤氮素转化年龄林地土壤果园种植硝化能力
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container_title	Journal of environmental sciences (China)
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creator	Zhang, Yushu Zhang, Jinbo Zhu, Tongbin Müller, Christoph Cai, Zucong
description	A better understanding of nitrogen transformation in soils could reveal the capacity for biological inorganic N supply and improve the efficiency of N fertilizers. In this study, a15 N tracing study was carried out to investigate the effects of converting woodland to orchard, and orchard age on the gross rates of N transformation occurring simultaneously in subtropical soils in Eastern China. The results showed that inorganic N supply rate was remained constant with soil organic C and N contents increased after converting woodland into citrus orchard and with increasing orchard age. This phenomenon was most probably due to the increase in the turnover time of recalcitrant organic-N, which increased with decreasing soil p H along with increasing orchard age significantly. The amo A gene copy numbers of both archaeal and bacterial were stimulated by orchard planting and increased with increasing orchard age. The nitrification capacity（defined as the ratio of gross rate of nitrification to total gross rate of mineralization） increased following the Michaelis–Menten equation, sharply in the first 10 years after woodland conversion to orchard, and increased continuously but much more slowly till 30 years. Due to the increase in nitrification capacity and unchanged NO3-consumption, the dominance of ammonium in inorganic N in woodland soil was shifted to nitrate dominance in orchard soils. These results indicated that the risk of NO3-loss was expected to increase and the amount of N needed from fertilizers for fruit growth did not change although soil organic N accumulated with orchard age.
doi_str_mv	10.1016/j.jes.2015.03.005
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In this study, a15 N tracing study was carried out to investigate the effects of converting woodland to orchard, and orchard age on the gross rates of N transformation occurring simultaneously in subtropical soils in Eastern China. The results showed that inorganic N supply rate was remained constant with soil organic C and N contents increased after converting woodland into citrus orchard and with increasing orchard age. This phenomenon was most probably due to the increase in the turnover time of recalcitrant organic-N, which increased with decreasing soil p H along with increasing orchard age significantly. The amo A gene copy numbers of both archaeal and bacterial were stimulated by orchard planting and increased with increasing orchard age. The nitrification capacity（defined as the ratio of gross rate of nitrification to total gross rate of mineralization） increased following the Michaelis–Menten equation, sharply in the first 10 years after woodland conversion to orchard, and increased continuously but much more slowly till 30 years. Due to the increase in nitrification capacity and unchanged NO3-consumption, the dominance of ammonium in inorganic N in woodland soil was shifted to nitrate dominance in orchard soils. These results indicated that the risk of NO3-loss was expected to increase and the amount of N needed from fertilizers for fruit growth did not change although soil organic N accumulated with orchard age.</description><identifier>ISSN: 1001-0742</identifier><identifier>EISSN: 1878-7320</identifier><identifier>DOI: 10.1016/j.jes.2015.03.005</identifier><identifier>PMID: 26257341</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>15N tracing technique ; Agriculture ; China ; Citrus ; Citrus - growth & development ; Environment ; Environmental Monitoring ; Fertilizers - analysis ; Forests ; Gross rates of nitrogen transformation ; Nitrification ; Nitrogen - metabolism ; Nitrogen Isotopes - analysis ; Soil - chemistry ; Subtropical orchard soil ; 中国东部 ; 亚热带土壤 ; 土壤有机碳 ; 土壤氮素转化 ; 年龄 ; 林地土壤 ; 果园种植 ; 硝化能力</subject><ispartof>Journal of environmental sciences (China), 2015-08, Vol.34 (8), p.10-19</ispartof><rights>2015</rights><rights>Copyright © 2015. 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The nitrification capacity（defined as the ratio of gross rate of nitrification to total gross rate of mineralization） increased following the Michaelis–Menten equation, sharply in the first 10 years after woodland conversion to orchard, and increased continuously but much more slowly till 30 years. Due to the increase in nitrification capacity and unchanged NO3-consumption, the dominance of ammonium in inorganic N in woodland soil was shifted to nitrate dominance in orchard soils. 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subjects	15N tracing technique Agriculture China Citrus Citrus - growth & development Environment Environmental Monitoring Fertilizers - analysis Forests Gross rates of nitrogen transformation Nitrification Nitrogen - metabolism Nitrogen Isotopes - analysis Soil - chemistry Subtropical orchard soil 中国东部亚热带土壤土壤有机碳土壤氮素转化年龄林地土壤果园种植硝化能力
title	Effect of orchard age on soil nitrogen transformation in subtropical China and implications
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