Ahmed S. Elrys, Shending Chen, Mengru Kong, Lijun Liu, Qilin Zhu, Xiaoqian Dan, Shuirong Tang, Yanzheng Wu, Lei Meng, Jinbo Zhang, Christoph Müller
{"title":"有机施肥加强了土壤矿物氮生产的多种内部途径:长期田间试验荟萃分析的证据","authors":"Ahmed S. Elrys, Shending Chen, Mengru Kong, Lijun Liu, Qilin Zhu, Xiaoqian Dan, Shuirong Tang, Yanzheng Wu, Lei Meng, Jinbo Zhang, Christoph Müller","doi":"10.1007/s00374-024-01856-3","DOIUrl":null,"url":null,"abstract":"<p>Organic carbon based amendments can improve soil structure and fertility, as well as increase composition and diversity of soil microbial community. One of the major functions of improving soil fertility is to achieve effective nitrogen (N) management and mineralization. In this study, 746 paired observations were pooled from 20 long-term field experiments to verify the hypothesis that compared to synthetic only fertilization, long-term application of organic fertilization alone or in combination with synthetic fertilization could strengthen multiple internal pathways for soil N supply under various climatic conditions. We found that long-term application of synthetic N fertilizers alone or in combination with phosphorus (P) and potassium (K) led to an increase only in the recalcitrant organic N mineralization rate (<i>M</i><sub>Nrec</sub>) by 210% and 263%, respectively. However, long-term application of organic fertilizers alone or in combination with synthetic N fertilizers increased <i>M</i><sub>Nrec</sub>, labile organic N mineralization rate (<i>M</i><sub>Nlab</sub>) and release of adsorbed ammonium from cation exchange sites (<i>R</i><sub>NH4a</sub>) by 160% and 200%, 153% and 353%, and 1025% and 541%, respectively. This indicates that organic fertilization can strengthen multiple internal pathways for mineral N production. The long-term co-application of organic and synthetic fertilizers stimulated <i>M</i><sub>Nlab</sub> (197%), <i>M</i><sub>Nrec</sub> (151%) and <i>R</i><sub>NH4a</sub> (563%) in subtropical regions, but it had no effect on heterotrophic nitrification (<i>O</i><sub>Nrec</sub>). In contrast, it stimulated <i>M</i><sub>Nrec</sub> (505%), <i>R</i><sub>NH4a</sub> (633%) and <i>O</i><sub>Nrec</sub> (184%) in temperate regions, with no observed effect on <i>M</i><sub>Nlab</sub>. These data confirm that if one N supply source is shut-off under specific climatic conditions the other pathways continue to provide N. The meta-analysis advances our understanding of agroecosystems and as such help to improve frameworks for enhancing soil health.</p>","PeriodicalId":9210,"journal":{"name":"Biology and Fertility of Soils","volume":null,"pages":null},"PeriodicalIF":5.1000,"publicationDate":"2024-08-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Organic fertilization strengthens multiple internal pathways for soil mineral nitrogen production: evidence from the meta-analysis of long-term field trials\",\"authors\":\"Ahmed S. Elrys, Shending Chen, Mengru Kong, Lijun Liu, Qilin Zhu, Xiaoqian Dan, Shuirong Tang, Yanzheng Wu, Lei Meng, Jinbo Zhang, Christoph Müller\",\"doi\":\"10.1007/s00374-024-01856-3\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Organic carbon based amendments can improve soil structure and fertility, as well as increase composition and diversity of soil microbial community. One of the major functions of improving soil fertility is to achieve effective nitrogen (N) management and mineralization. In this study, 746 paired observations were pooled from 20 long-term field experiments to verify the hypothesis that compared to synthetic only fertilization, long-term application of organic fertilization alone or in combination with synthetic fertilization could strengthen multiple internal pathways for soil N supply under various climatic conditions. We found that long-term application of synthetic N fertilizers alone or in combination with phosphorus (P) and potassium (K) led to an increase only in the recalcitrant organic N mineralization rate (<i>M</i><sub>Nrec</sub>) by 210% and 263%, respectively. However, long-term application of organic fertilizers alone or in combination with synthetic N fertilizers increased <i>M</i><sub>Nrec</sub>, labile organic N mineralization rate (<i>M</i><sub>Nlab</sub>) and release of adsorbed ammonium from cation exchange sites (<i>R</i><sub>NH4a</sub>) by 160% and 200%, 153% and 353%, and 1025% and 541%, respectively. This indicates that organic fertilization can strengthen multiple internal pathways for mineral N production. The long-term co-application of organic and synthetic fertilizers stimulated <i>M</i><sub>Nlab</sub> (197%), <i>M</i><sub>Nrec</sub> (151%) and <i>R</i><sub>NH4a</sub> (563%) in subtropical regions, but it had no effect on heterotrophic nitrification (<i>O</i><sub>Nrec</sub>). In contrast, it stimulated <i>M</i><sub>Nrec</sub> (505%), <i>R</i><sub>NH4a</sub> (633%) and <i>O</i><sub>Nrec</sub> (184%) in temperate regions, with no observed effect on <i>M</i><sub>Nlab</sub>. These data confirm that if one N supply source is shut-off under specific climatic conditions the other pathways continue to provide N. 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Organic fertilization strengthens multiple internal pathways for soil mineral nitrogen production: evidence from the meta-analysis of long-term field trials
Organic carbon based amendments can improve soil structure and fertility, as well as increase composition and diversity of soil microbial community. One of the major functions of improving soil fertility is to achieve effective nitrogen (N) management and mineralization. In this study, 746 paired observations were pooled from 20 long-term field experiments to verify the hypothesis that compared to synthetic only fertilization, long-term application of organic fertilization alone or in combination with synthetic fertilization could strengthen multiple internal pathways for soil N supply under various climatic conditions. We found that long-term application of synthetic N fertilizers alone or in combination with phosphorus (P) and potassium (K) led to an increase only in the recalcitrant organic N mineralization rate (MNrec) by 210% and 263%, respectively. However, long-term application of organic fertilizers alone or in combination with synthetic N fertilizers increased MNrec, labile organic N mineralization rate (MNlab) and release of adsorbed ammonium from cation exchange sites (RNH4a) by 160% and 200%, 153% and 353%, and 1025% and 541%, respectively. This indicates that organic fertilization can strengthen multiple internal pathways for mineral N production. The long-term co-application of organic and synthetic fertilizers stimulated MNlab (197%), MNrec (151%) and RNH4a (563%) in subtropical regions, but it had no effect on heterotrophic nitrification (ONrec). In contrast, it stimulated MNrec (505%), RNH4a (633%) and ONrec (184%) in temperate regions, with no observed effect on MNlab. These data confirm that if one N supply source is shut-off under specific climatic conditions the other pathways continue to provide N. The meta-analysis advances our understanding of agroecosystems and as such help to improve frameworks for enhancing soil health.
期刊介绍:
Biology and Fertility of Soils publishes in English original papers, reviews and short communications on all fundamental and applied aspects of biology – microflora and microfauna - and fertility of soils. It offers a forum for research aimed at broadening the understanding of biological functions, processes and interactions in soils, particularly concerning the increasing demands of agriculture, deforestation and industrialization. The journal includes articles on techniques and methods that evaluate processes, biogeochemical interactions and ecological stresses, and sometimes presents special issues on relevant topics.
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