Insights into the associations between soil quality and ecosystem multifunctionality driven by fertilization management: A case study from the North China Plain
Recycling of livestock manure in agroecosystems has been shown to enhance the sustainability of food production and reduce adverse environmental consequences from intensive crop-livestock systems. However, the effect of manure application on the associations between soil quality and ecosystem multif...
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| Vydané v: | Journal of cleaner production Ročník 362; s. 132265 |
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| Hlavní autori: | , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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Elsevier Ltd
15.08.2022
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| ISSN: | 0959-6526, 1879-1786, 1879-1786 |
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| Abstract | Recycling of livestock manure in agroecosystems has been shown to enhance the sustainability of food production and reduce adverse environmental consequences from intensive crop-livestock systems. However, the effect of manure application on the associations between soil quality and ecosystem multifunctionality still remains poorly understood. Hereby, we used a five-year field experiment to investigate the effect of mineral and manure fertilization on soil quality, enzymatic stoichiometry, and ecosystem multifunctionality for both topsoil and subsoil (i.e. 0-20 cm and 20–40 cm). Manure alone and combined with mineral fertilization increased soil quality index by 49.5% and 70.1% in the topsoil, and by 67.5% and 26.6% in subsoil compared to no fertilization. Moreover, the manure application increased the C, N, and P acquisition enzyme activities, especially those for C and P cycling. Fertilization regimes affect enzymatic stoichiometry in the subsoil rather than topsoil. Manure application increased soil ecosystem multifunctionality in both top and subsoil by 2.1 and 0.4 times, respectively. Interestingly, the soil quality index was positively correlated with ecosystem multifunctionality regardless of fertilization regimes. Furthermore, random forest analysis showed that soil organic C and N content, available P, and microbial biomass were the main drivers of soil ecosystem multifunctionality. Conversely, mineral fertilization did not affect soil quality and enzyme activity in both soil layers, and thus did not change soil ecosystem multifunctionality. In conclusion, manure application fosters soil quality and has the potential to improve the soil multifunctionality, thereby providing an effective way to sustainable soil management and cleaner crop production.
[Display omitted]
•Manure addition increased soil quality and ecosystem multifunctionality.•Higher C and P enzyme activities promote ecosystem multifunctionality.•Fertilization regimes affect enzymatic stoichiometry in subsoil rather than topsoil.•Soil quality and ecosystem multifunctionality are co-driven by fertilization. |
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| AbstractList | Recycling of livestock manure in agroecosystems has been shown to enhance the sustainability of food production and reduce adverse environmental consequences from intensive crop-livestock systems. However, the effect of manure application on the associations between soil quality and ecosystem multifunctionality still remains poorly understood. Hereby, we used a five-year field experiment to investigate the effect of mineral and manure fertilization on soil quality, enzymatic stoichiometry, and ecosystem multifunctionality for both topsoil and subsoil (i.e. 0-20 cm and 20–40 cm). Manure alone and combined with mineral fertilization increased soil quality index by 49.5 and 70.1% in the topsoil, and by 67.5% and 26.6% in subsoil compared to no fertilization. Moreover, the manure application increased the C, N, and P acquisition enzyme activities, especially those for C and P cycling. Fertilization regimes affect enzymatic stoichiometry in subsoil rather than topsoil. Manure application increased soil ecosystem multifunctionality in both top and subsoil by 2.1 and 0.4 times, respectively. Interestingly, the soil quality was positively correlated with ecosystem multifunctionality regardless of fertilization regimes. Furthermore, random forest analysis showed that soil organic C and N content, available P, and microbial biomass were the main drivers of soil ecosystem multifunctionality. Conversely, mineral fertilization did not affect soil quality and enzyme activity in both soil layers, and thus did not change soil ecosystem multifunctionality. In conclusion, manure application fosters soil quality and has the potential to improve the soil multifunctionality, thereby providing an effective way to sustainable soil management and cleaner crop production. Recycling of livestock manure in agroecosystems has been shown to enhance the sustainability of food production and reduce adverse environmental consequences from intensive crop-livestock systems. However, the effect of manure application on the associations between soil quality and ecosystem multifunctionality still remains poorly understood. Hereby, we used a five-year field experiment to investigate the effect of mineral and manure fertilization on soil quality, enzymatic stoichiometry, and ecosystem multifunctionality for both topsoil and subsoil (i.e. 0-20 cm and 20–40 cm). Manure alone and combined with mineral fertilization increased soil quality index by 49.5% and 70.1% in the topsoil, and by 67.5% and 26.6% in subsoil compared to no fertilization. Moreover, the manure application increased the C, N, and P acquisition enzyme activities, especially those for C and P cycling. Fertilization regimes affect enzymatic stoichiometry in the subsoil rather than topsoil. Manure application increased soil ecosystem multifunctionality in both top and subsoil by 2.1 and 0.4 times, respectively. Interestingly, the soil quality index was positively correlated with ecosystem multifunctionality regardless of fertilization regimes. Furthermore, random forest analysis showed that soil organic C and N content, available P, and microbial biomass were the main drivers of soil ecosystem multifunctionality. Conversely, mineral fertilization did not affect soil quality and enzyme activity in both soil layers, and thus did not change soil ecosystem multifunctionality. In conclusion, manure application fosters soil quality and has the potential to improve the soil multifunctionality, thereby providing an effective way to sustainable soil management and cleaner crop production. [Display omitted] •Manure addition increased soil quality and ecosystem multifunctionality.•Higher C and P enzyme activities promote ecosystem multifunctionality.•Fertilization regimes affect enzymatic stoichiometry in subsoil rather than topsoil.•Soil quality and ecosystem multifunctionality are co-driven by fertilization. Recycling of livestock manure in agroecosystems has been shown to enhance the sustainability of food production and reduce adverse environmental consequences from intensive crop-livestock systems. However, the effect of manure application on the associations between soil quality and ecosystem multifunctionality still remains poorly understood. Hereby, we used a five-year field experiment to investigate the effect of mineral and manure fertilization on soil quality, enzymatic stoichiometry, and ecosystem multifunctionality for both topsoil and subsoil (i.e. 0-20 cm and 20–40 cm). Manure alone and combined with mineral fertilization increased soil quality index by 49.5% and 70.1% in the topsoil, and by 67.5% and 26.6% in subsoil compared to no fertilization. Moreover, the manure application increased the C, N, and P acquisition enzyme activities, especially those for C and P cycling. Fertilization regimes affect enzymatic stoichiometry in the subsoil rather than topsoil. Manure application increased soil ecosystem multifunctionality in both top and subsoil by 2.1 and 0.4 times, respectively. Interestingly, the soil quality index was positively correlated with ecosystem multifunctionality regardless of fertilization regimes. Furthermore, random forest analysis showed that soil organic C and N content, available P, and microbial biomass were the main drivers of soil ecosystem multifunctionality. Conversely, mineral fertilization did not affect soil quality and enzyme activity in both soil layers, and thus did not change soil ecosystem multifunctionality. In conclusion, manure application fosters soil quality and has the potential to improve the soil multifunctionality, thereby providing an effective way to sustainable soil management and cleaner crop production. |
| ArticleNumber | 132265 |
| Author | Yang, Yadong Zhou, Jie Jones, Davey L. Jia, Rong Zang, Huadong Razavi, Bahar S. Chu, Juncong Zeng, Zhaohai Shahbaz, Muhammad |
| Author_xml | – sequence: 1 givenname: Rong surname: Jia fullname: Jia, Rong organization: College of Agronomy and Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 2 givenname: Jie surname: Zhou fullname: Zhou, Jie organization: College of Agronomy and Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 3 givenname: Juncong surname: Chu fullname: Chu, Juncong organization: College of Agronomy and Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 4 givenname: Muhammad surname: Shahbaz fullname: Shahbaz, Muhammad organization: Centre for Environmental and Climate Science (CEC), Lund University, 223 62, Lund, Sweden – sequence: 5 givenname: Yadong surname: Yang fullname: Yang, Yadong organization: College of Agronomy and Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 6 givenname: Davey L. orcidid: 0000-0002-1482-4209 surname: Jones fullname: Jones, Davey L. organization: School of Natural Sciences, Bangor University, Bangor, Gwynedd, LL57 2UW, UK – sequence: 7 givenname: Huadong surname: Zang fullname: Zang, Huadong email: zanghuadong@cau.edu.cn organization: College of Agronomy and Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 8 givenname: Bahar S. orcidid: 0000-0002-3726-8268 surname: Razavi fullname: Razavi, Bahar S. organization: Dept. Soil and Plant Microbiome, Institute of Phytopathology, Christian-Albrechts-University of Kiel, Kiel, Germany – sequence: 9 givenname: Zhaohai surname: Zeng fullname: Zeng, Zhaohai organization: College of Agronomy and Biotechnology, China Agricultural University, Beijing, 100193, China |
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| Title | Insights into the associations between soil quality and ecosystem multifunctionality driven by fertilization management: A case study from the North China Plain |
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