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Research on the High-Quality Development of Agricultural Supply Chain Financial Ecosystem Empowered by Science and Technology
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作者 Chunhui Wang Qi’en Zhang 《Proceedings of Business and Economic Studies》 2024年第5期98-105,共8页
A systematic perspective on agricultural supply chain finance can offer fresh insights into its development.The high-quality development of the agricultural supply chain finance ecosystem is crucial for the comprehens... A systematic perspective on agricultural supply chain finance can offer fresh insights into its development.The high-quality development of the agricultural supply chain finance ecosystem is crucial for the comprehensive revitalization of rural areas and the realization of agricultural power.Based on the current state of development of this ecosystem,this paper identifies several bottlenecks,such as insufficient policy and technical support in the macro-environment system,weak incentives for independent circulation within the industrial environment system,and inadequate motivation for stakeholders to participate in the micro-environment system.To address these issues,this paper proposes that the visualization,digitalization,and authenticity characteristics of the“blockchain+Internet of Things”technology architecture can effectively resolve these bottlenecks.Additionally,targeted strategies are suggested to promote the high-quality development of the agricultural supply chain finance ecosystem. 展开更多
关键词 Agricultural supply chain finance ecosystem High-quality development Blockchain+Internet of Things
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A Review of Research on Agroecosystem Services Based on Bibliometric Analysis 被引量:1
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作者 Haiying Tang Guoqin Huang 《Research in Ecology》 2021年第2期46-52,共7页
Agricultural ecosystem is one of the most important ecosystems in the world,which provides multiple ecosystem services such as grain produc­tion,climate regulation,water conservation and biodiversity.The degrada&... Agricultural ecosystem is one of the most important ecosystems in the world,which provides multiple ecosystem services such as grain produc­tion,climate regulation,water conservation and biodiversity.The degrada­tion of ecosystem services has become an important factor that severely re­stricts the sustainable development of agriculture.Agroecosystem services have become the core and hot topic of ecological research.In recent years,countries and related institutions have been increasing their research on agricultural ecosystem service.Based on Web of Science(WoS)and China Knowledge Resource Integrated(CNKI)databases,the development char­acteristics and trends of agroecosystem services research were analyzed by bibliometric methods.The results show that:(1)The number of papers on agroecosystem services is increasing,which shows that the research on it is developing.(2)Developed countries are the main research forces in the field of ecosystem services,and the developed countries in Europe and the United States occupy the absolute leading position;China Agricultural Uni­versity and the University of California in the United States are the main research institutions.(3)At present,eight research hotspots in this field are the study of ecosystem services mechanism,protection management and sustainability,sustainable development,biodiversity,land use and land­scape change,value assessment,climate change,sustainable development of agriculture,ecological compensation.From the overall distribution of research hotspots in each period,the international research focuses more on the interdependence between ecosystem services and ecosystem services and human well-being,while the research in China focuses more on eco­system services assessment.(4)In recent years,there is a big gap between China and foreign countries in the field of ecosystem services research.It is necessary to strengthen cooperation with research institutions in developed countries in Europe and the United States,and further improve the research content,research vision and research methods. 展开更多
关键词 Agricultural ecosystem services BIBLIOMETRICS Research progress
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Modeling N_2O Emissions from Agricultural Fields in Southeast China 被引量:1
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作者 勾继 郑循华 +1 位作者 王明星 李长生 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 1999年第4期581-587,589-592,共11页
DNDC, a rainfall-driven and process-oriented model of soil carbon and nitrogenbiogeochemistry, is applied t0 simulate the nitrous oxide emissions from agricultural ecosystem inSoutheast China. We simulated the soil N2... DNDC, a rainfall-driven and process-oriented model of soil carbon and nitrogenbiogeochemistry, is applied t0 simulate the nitrous oxide emissions from agricultural ecosystem inSoutheast China. We simulated the soil N2O emission during a whole rice-wheat rotation cycle(from Nov. 1, 1996 to Oct. 31, 1997) under three different conditions, which are A) no fertilizer, B)both chemical fertilizer and manure and, C) chemical fertiliser only. The processes ofN2O emission were discussed in detail by comparing the model outputs with the results from fieldmeasurement. The comparison shows that the model is good at simulating most of theNzO emission pulses and trends. Although the simulated N2O emission fluxes are generally lessthan the measured ones, the model outputs during the dryland period, especially during the wheatreviving and maturing stages in spring, are much better than those during the paddy field period.Some sensitive experiments were made by simulating the N2O emissions in spring, when there is asmallest gap between the simulated fluxes and the measured ones. Meanwhile, the effects of someimportant regulating factors, such as the rainfall N deposition by rainfall, temperature, tillage, nitrogen fertilizer and manure application on N2O emission during this period were analyzed. Fromthe analysis, we draw a conclusion that soil moisture and fertilization are the most important regulating factors while the N2O emission is sensitive to some other factors, such as temperature, manure, tillage and the wet deposition of atmospheric nitrate. 展开更多
关键词 N_2O Emission MODEL Sensitive factor Agricultural ecosystem
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Precipitation regulated soil nematode community and footprint in cropland ecosystems
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作者 Pingting Guan Jianan Li +6 位作者 Cao Hao Jingjing Yang Lihong Song Ximei Niu Ping Wang Mohammad Mahamood Donghui Wu 《Soil Ecology Letters》 CSCD 2023年第4期19-28,共10页
●Nematode abundance and footprint show unimodal patterns with precipitation levels.●MAP governed nematode diversity along the precipitation gradient of agroecosystem.●Soil pH determined nematode abundance and footp... ●Nematode abundance and footprint show unimodal patterns with precipitation levels.●MAP governed nematode diversity along the precipitation gradient of agroecosystem.●Soil pH determined nematode abundance and footprint in low precipitation levels.Precipitation plays a crucial role in global biodiversity change across terrestrial ecosystems.Precipitation is proven to affect soil organism diversity in natural ecosystems.However,how precipitation change affects the function of the soil nematode community remains unclear in cropland ecosystems.Here,we tested soil nematode communities from different precipitation sites(300 mm to 900 mm)of the agricultural ecosystem.The abundance of total nematodes,fungivores,and plant parasites,together with the footprint of fungivores was significantly affected by mean annual precipitation(MAP)in cropland ecosystem.Plant parasites diversity and footprint showed negative relationships with MAP.The random forest suggested plant parasite footprint was the most responsive to MAP.The structural equation model revealed that MAP affected nematode abundance and footprint indirectly via soil pH;nematode diversity was affected by MAP directly.We conclude that precipitation could act as the main selection stress for nematode diversity among the large gradient of agricultural ecosystems.However,the soil pH may act as a stress factor in determining nematode community and carbon flow in the soil food web.Our study emphasized that using nematode value by trophic group would provide a deep understanding of nematode response to precipitation in cropland ecosystems. 展开更多
关键词 soil nematode community nematode carbon flux the Northeast China Transect agricultural ecosystem PRECIPITATION
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Heavy metals potentially drive co-selection of antibiotic resistance genes by shifting soil bacterial communities in paddy soils along the middle and lower Yangtze River
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作者 Ya ZHANG Hao WANG +3 位作者 Minghui HU Rui CAI Yuqing MIAO Xiancan ZHU 《Pedosphere》 SCIE CAS CSCD 2024年第3期606-619,共14页
Heavy metals(HMs)and antibiotic resistance have become serious environmental problems affecting soil and human health.Soil microorganisms play key roles in pollutant degradation and biogeochemical cycling processes;ho... Heavy metals(HMs)and antibiotic resistance have become serious environmental problems affecting soil and human health.Soil microorganisms play key roles in pollutant degradation and biogeochemical cycling processes;however,the interactions among HMs,soil microbial communities,and antibiotic resistance genes(ARGs)in agricultural soils remain unclear.Using quantitative real-time polymerase chain reaction and NovaSeq sequencing,we evaluated heavy metal contents,abundances of ARGs,soil bacterial community structure and functions,and their correlations in paddy soils at 43 sampling sites along the middle and lower reaches of the Yangtze River,central and eastern China.Our results showed the co-occurrence of HMs,ARGs,and HM resistance genes across all paddy soils.Additionally,significant positive associations were detected between HMs and resistance genes.Cadmium,czcA,and int1 were positively correlated with bacterial community diversity.The Mantel test showed that bacterial community composition and functions were significantly associated with HMs and resistance genes,such as Cd,Cr,Zn,copA,czcA,int1,and sul1.Moreover,HMs and ARGs were the major factors shaping soil bacterial communities;thus,HMs triggered proliferation of HM and antibiotic resistances by influencing the mobile genetic element(int1)and soil microbial communities.Our study revealed that HMs potentially drive the co-selection of ARGs by shifting soil bacterial community structure and functions,thereby increasing the potential risks to human health as well as ecological environment in the paddy soils along the middle and lower reaches of the Yangtze River. 展开更多
关键词 agricultural ecosystem ecological risk heavy metal resistance microbial community soil contamination soil pollution
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A Review of the Contemporary Eco-Agricultural Technologies in China 被引量:4
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作者 YANG Lun LIU Moucheng +1 位作者 YANG Xiao MIN Qingwen 《Journal of Resources and Ecology》 CSCD 2022年第3期511-517,共7页
Eco-agriculture is the principal measure for addressing the environmental issues caused by agriculture and an essential direction for agriculture in the future. Meanwhile, the development of eco-agriculture is insepar... Eco-agriculture is the principal measure for addressing the environmental issues caused by agriculture and an essential direction for agriculture in the future. Meanwhile, the development of eco-agriculture is inseparable from its technical support. At present, the eco-agricultural technologies commonly used in China can be divided into three categories according to their theoretical basis and practical types: the technologies used to realize the precision input of material resources, the technologies used to improve material circulation efficiency, and the technologies that use the principle of species symbiosis. Although these technologies provide essential support for developing eco-agriculture in China, there are also problems associated with their implementation, such as poor technical application and a low level of industrialization. Therefore, in the future development of eco-agriculture technology in China, the technologies producers should take the actual problems as guide and pay attention to the popularization, industrialization, and application of the technologies. 展开更多
关键词 AGROECOLOGY green development of agriculture agricultural heritage systems agricultural ecosystem eco-farming
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Eco-environmental Impact of Bioenergy Production 被引量:2
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作者 John W.Bickham Mark A.Thomas 《Journal of Resources and Ecology》 CSCD 2010年第2期110-116,共7页
生物质能源生产是能源发展领域的重大挑战,在解决新的替代能源中扮演着重要角色。本文着重论述了美国生物能源生产的生态环境问题。从经济、环境和战略方面考虑,生物能源有望提高国家安全,因而受政策驱动的美国生物能源生产技术备受注... 生物质能源生产是能源发展领域的重大挑战,在解决新的替代能源中扮演着重要角色。本文着重论述了美国生物能源生产的生态环境问题。从经济、环境和战略方面考虑,生物能源有望提高国家安全,因而受政策驱动的美国生物能源生产技术备受注目。尽管生物能源具有诸多潜在效益,但是在北美,生物原料供应、高强度经营的土地上农药使用及其对陆地野生动物的潜在影响等令人担忧,我们分析了其中的原因。通常认为,未来生物能源的环境、经济效应是正面的;然而,谨慎地审视和发展生物能源经济以保护生态系统的可持续性显得至关重要。 展开更多
关键词 BIODIVERSITY biofuels WILDLIFE terrestrial habitats CONSERVATION agricultural ecosystems
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