Back Article

Qi C, Cao D, Gao X, Jia S, Yin R, et al. 2023. Optimising organic composition of feedstock to improve microbial dynamics and symbiosis to advance solid-state anaerobic co-digestion of sewage sludge and organic waste. Applied Energy 351:121857

Babu S, Singh Rathore S, Singh R, Kumar S, Singh VK, et al. 2022. Exploring agricultural waste biomass for energy, food and feed production and pollution mitigation: a review. Bioresource Technology 360:127566

Kharola S, Ram M, Goyal N, Mangla SK, Nautiyal OP, et al. 2022. Barriers to organic waste management in a circular economy. Journal of Cleaner Production 362:132282

Sun R, Zhao T, Fan L, Zhang Y, Wang J, et al. 2023. The transformation of soil Hg oxidation states controls elemental Hg release in the greenhouse with applying organic fertilizer. Journal of Hazardous Materials 454:131520

Zhang S, Li Y, Jiang L, Han W, Zhao Y, et al. 2023. Organic fertilizer facilitates the soil microplastic surface degradation and enriches the diversity of bacterial biofilm. Journal of Hazardous Materials 459:132139

Gao X, Tan W, Zhao Y, Wu J, Sun Q, et al. 2019. Diversity in the mechanisms of humin formation during composting with different materials. Environmental Science & Technology 53:3653−3662

Liu YR, van der Heijden MGA, Riedo J, Sanz-Lazaro C, Eldridge DJ, et al. 2023. Soil contamination in nearby natural areas mirrors that in urban greenspaces worldwide. Nature Communications 14:1706

Olsson L, Cotrufo F, Crews T, Franklin J, King A, et al. 2023. The state of the world's arable land. Annual Review of Environment and Resources 48:451−475

Wang B, Xu J, Wang Y, Stirling E, Zhao K, et al. 2023. Tackling soil ARG-carrying pathogens with global-scale metagenomics. Advanced Science 10:2301980

Xia F, Zhao Z, Niu X, Wang Z. 2024. Integrated pollution analysis, pollution area identification and source apportionment of heavy metal contamination in agricultural soil. Journal of Hazardous Materials 465:133215

Dijkstra FA, Keitel C. 2024. Maximising carbon sequestration through mixing compost in moist soil. Soil Biology and Biochemistry 191:109330

Mercer GD, Mickan BS, Gleeson DB, Ryan MH. 2024. Transformed biosolids promote ryegrass growth and microbial carbon cycling at the 'cost' of soil carbon. Soil Biology and Biochemistry 199:109603

Luo Y, Gonzalez Lopez JB, van Veelen HPJ, Sechi V, ter Heijne A, et al. 2022. Bacterial and fungal co-occurrence patterns in agricultural soils amended with compost and bokashi. Soil Biology and Biochemistry 174:108831

Mercer GD, Mickan BS, Gleeson DB, Walker E, Krohn C, et al. 2025. Probing the pump: soil carbon dynamics, microbial carbon use efficiency and community composition in response to stoichiometrically-balanced compost and biochar. Soil Biology and Biochemistry 205:109770

Chen S, Gao J, Dong B, Xu Z. 2024. Use of sludge stabilization products for remediation of heavy metal (loid)s-contaminated mine tailings: physicochemical, biochemical and microbial mechanisms. Chemical Engineering Journal 488:150640

Le Pera A, Sellaro M, Bencivenni E. 2022. Composting food waste or digestate? Characteristics, statistical and life cycle assessment study based on an Italian composting plant. Journal of Cleaner Production 350:131552

Hall AL, Ponomareva AI, Torn MS, Potts MD. 2024. Socio-environmental opportunities for organic material management in California's sustainability transition. Environmental Science & Technology 58:9031−9039

Soria R, Rodríguez-Berbel N, Sánchez-Cañete EP, Villafuerte AB, Ortega R, et al. 2023. Organic amendments from recycled waste promote short-term carbon sequestration of restored soils in drylands. Journal of Environmental Management 327:116873

Malone Z, Berhe AA, Ryals R. 2023. Impacts of organic matter amendments on urban soil carbon and soil quality: a meta-analysis. Journal of Cleaner Production 419:138148

Zhao S, Schmidt S, Gao H, Li T, Chen X, et al. 2022. A precision compost strategy aligning composts and application methods with target crops and growth environments can increase global food production. Nature Food 3:741−752

Liu W, Cheng Y, Guo J, Duan Y, Wang S, et al. 2022. Long-term manure inputs induce a deep selection on agroecosystem soil antibiotic resistome. Journal of Hazardous Materials 436:129163

Ahvo A, Heino M, Sandström V, Chrisendo D, Jalava M, et al. 2023. Agricultural input shocks affect crop yields more in the high-yielding areas of the world. Nature Food 4:1037−1046

Ma B, Karimi MS, Mohammed KS, Shahzadi I, Dai J. 2024. Nexus between climate change, agricultural output, fertilizer use, agriculture soil emissions: novel implications in the context of environmental management. Journal of Cleaner Production 450:141801

Muhammad S, Shaukat M, Yasin M, Mahmood A, Javaid MM, et al. 2023. Compost and humic acid amendments are a practicable solution to rehabilitate weak arid soil for higher winter field pea production. Scientific Reports 13:17519

Jiang Y, Li K, Chen S, Fu X, Feng S, et al. 2022. A sustainable agricultural supply chain considering substituting organic manure for chemical fertilizer. Sustainable Production and Consumption 29:432−446

Zhang M, Shi A, Ajmal M, Ye L, Awais M. 2023. Comprehensive review on agricultural waste utilization and high-temperature fermentation and composting. Biomass Conversion and Biorefinery 13:5445−5468

Xiao G, Zhao Z, Liang L, Meng F, Wu W, et al. 2019. Improving nitrogen and water use efficiency in a wheat-maize rotation system in the North China Plain using optimized farming practices. Agricultural Water Management 212:172−180

Chen B, Azman S, Dewil R, Appels L. 2023. Alkaline anaerobic digestion of livestock manure: unveiling mechanisms, applications, and perspective. Chemical Engineering Journal 477:146852

Zhang N, Bai Z, Ledgard S, Luo J, Ma L. 2021. Ammonia mitigation effects from the cow housing and manure storage chain on the nitrogen and carbon footprints of a typical dairy farm system on the North China Plain. Journal of Cleaner Production 280:124465

Yu W, Yue Y, Wang F. 2022. The spatial-temporal coupling pattern of grain yield and fertilization in the North China plain. Agricultural Systems 196:103330

Zhou J, Li B, Xia L, Fan C, Xiong Z. 2019. Organic-substitute strategies reduced carbon and reactive nitrogen footprints and gained net ecosystem economic benefit for intensive vegetable production. Journal of Cleaner Production 225:984−994

Li S, Wu J, Wang X, Ma L. 2020. Economic and environmental sustainability of maize-wheat rotation production when substituting mineral fertilizers with manure in the North China Plain. Journal of Cleaner Production 271:122683

Wang J, Sha Z, Zhang J, Kang J, Xu W, et al. 2022. Reactive N emissions from cropland and their mitigation in the North China Plain. Environmental Research 214:114015

Guo X, Zhu AL, Zhu X, An Z, Xu Y, et al. 2024. Promoting sustainable smallholder farming systems in China. Agricultural Systems 219:104035

Ouyang W, Li Z, Liu J, Guo J, Fang F, et al. 2017. Inventory of apparent nitrogen and phosphorus balance and risk of potential pollution in typical sloping cropland of purple soil in China—a case study in the Three Gorges Reservoir region. Ecological Engineering 106:620−628

Li Z, Wang P, Liu L, Zheng Y, Xie D. 2021. High negative surface charge increases the acidification risk of purple soil in China. CATENA 196:104819

Ibrahim MM, Hou E. 2023. Knowledge-based nitrogen management. Nature Food 4:1031−1032

Chen J, Yu J, Li Z, Zhou J, Zhan L. 2023. Ameliorating effects of biochar, sheep manure and chicken manure on acidified purple soil. Agronomy 13:1142

Liu E, Zhou J, Yang X, Jin T, Zhao B, et al. 2023. Long-term organic fertilizer-induced carbonate neoformation increases carbon sequestration in soil. Environmental Chemistry Letters 21:663−671

Liu X, Burras CL, Kravchenko YS, Duran A, Huffman T, et al. 2012. Overview of Mollisols in the world: distribution, land use and management. Canadian Journal of Soil Science 92:383−402

Ding J, Jiang X, Guan D, Zhao B, Ma M, et al. 2017. Influence of inorganic fertilizer and organic manure application on fungal communities in a long-term field experiment of Chinese Mollisols. Applied Soil Ecology 111:114−122

Dai Z, Zhang Y, Wei Y, Cai C. 2024. Impacts of long-term organic manure inputs on cultivated soils with various degradation degrees. Soil and Tillage Research 236:105950

Ahmed M, Rauf M, Akhtar M, Mukhtar Z, Saeed NA. 2020. Hazards of nitrogen fertilizers and ways to reduce nitrate accumulation in crop plants. Environmental Science and Pollution Research 27:17661−17670

Dong NQ, Lin HX. 2020. Higher yield with less nitrogen fertilizer. Nature Plants 6:1078−1079

Liang Y, Al-Kaisi M, Yuan J, Liu J, Zhang H, et al. 2021. Effect of chemical fertilizer and straw-derived organic amendments on continuous maize yield, soil carbon sequestration and soil quality in a Chinese Mollisol. Agriculture, Ecosystems & Environment 314:107403

Sharma P, Laor Y, Raviv M, Medina S, Saadi I, et al. 2017. Green manure as part of organic management cycle: effects on changes in organic matter characteristics across the soil profile. Geoderma 305:197−207

Lu X, Mahdi AK, Han XZ, Chen X, Yan J, et al. 2020. Long-term application of fertilizer and manures affect P fractions in Mollisol. Scientific Reports 10:14793

Du Y, Cui B, zhang Q, Wang Z, Sun J, et al. 2020. Effects of manure fertilizer on crop yield and soil properties in China: a meta-analysis. CATENA 193:104617

Li W, Ma L, Shi F, Wang S, Zhao J, et al. 2023. Regulation of soil water and nitrate by optimizing nitrogen fertilization and the addition of manure based on precipitation: an 8-year field record. Agriculture, Ecosystems & Environment 354:108586

Ren A, Zhao W, Anwar S, Lin W, Ding P, et al. 2022. Effects of tillage and seasonal variation of rainfall on soil water content and root growth distribution of winter wheat under rainfed conditions of the Loess Plateau, China. Agricultural Water Management 268:107533

Ma L, Shi L, Wang S, Wang K, Zheng W, et al. 2022. ¹⁵N labelling of cattle manure reveals the distribution of organic fertiliser nitrogen in a winter wheat system. Field Crops Research 283:108529

Li J, Yang Y, Wen J, Mo F, Liu Y. 2022. Continuous manure application strengthens the associations between soil microbial function and crop production: evidence from a 7-year multisite field experiment on the Guanzhong Plain. Agriculture, Ecosystems & Environment 338:108082

Zhai L, Wang Z, Zhai Y, Zhang L, Zheng M, et al. 2022. Partial substitution of chemical fertilizer by organic fertilizer benefits grain yield, water use efficiency, and economic return of summer maize. Soil and Tillage Research 217:105287

Celik I, Gunal H, Budak M, Akpinar C. 2010. Effects of long-term organic and mineral fertilizers on bulk density and penetration resistance in semi-arid Mediterranean soil conditions. Geoderma 160:236−243

Zhang G, Song K, Miao X, Huang Q, Ma J, et al. 2021. Nitrous oxide emissions, ammonia volatilization, and grain-heavy metal levels during the wheat season: effect of partial organic substitution for chemical fertilizer. Agriculture, Ecosystems & Environment 311:107340

Li W, Wang K, Feng T, Miao P, Zheng Z, et al. 2024. Optimizing combination of chemical nitrogen fertilizer and manure can increase yield and economic benefits of dryland wheat while reduce environmental risks. European Journal of Agronomy 159:127272

Xu T, Zhang H, Gong J, Wang L, Wang Y, et al. 2025. Optimizing nitrogen fertilizer rate and investigating mechanism driving grain yield increase for rice in the middle reaches of the Yangtze River. Plants 14:2326

Xiao J, Wang Q, Ge X, Zhu L, Li X, et al. 2019. Defining the ecological efficiency of nitrogen use in the context of nitrogen cycling. Ecological Indicators 107:105493

Sha Z, Liu H, Wang J, Ma X, Liu X, et al. 2021. Improved soil-crop system management aids in NH₃ emission mitigation in China. Environmental Pollution 289:117844

Liao B, Liao P, Hu R, Cai T, Zhang Y, et al. 2023. Mitigating ammonia volatilization in rice cultivation: the impact of partial organic fertilizer substitution. Chemosphere 344:140326

Liu X, Vitousek P, Chang Y, Zhang W, Matson P, et al. 2016. Evidence for a historic change occurring in China. Environmental Science & Technology 50:505−506

Ministry of Agriculture and Rural Affairs. 2017. Notice of the Ministry of Agriculture on the issuance of the "Implementation Plan for the Action of Replacing Chemical Fertilizers with Organic Fertilizers in Fruit, Vegetable, and Tea Production". www.reea.agri.cn/sttzgg/201702/P020170215535168503243.pdf (in Chinese)

Ministry of Agriculture and Rural Affairs. 2017. Notice of the Ministry of Agriculture on issuing the "Action Plan for Resource Utilization of Livestock and Poultry Manure (2017-2020)". www.moa.gov.cn/govpublic/XMYS/201707/t20170710_5742847.htm (in Chinese)

Yang J, Su K, Zhang Z, Guo S, Hou Y, et al. 2024. Perceived benefit, policy incentive and farmers' organic fertilizer application in protected areas. Agriculture 14:810

Yi X, Yu L, Chang SHE, Yin C, Wang H, et al. 2021. The effects of China's Organic-Substitute-Chemical-Fertilizer (OSCF) policy on greenhouse vegetable farmers. Journal of Cleaner Production 297:126677

Zhao Y, Wang M, Hu S, Zhang X, Ouyang Z, et al. 2018. Economics- and policy-driven organic carbon input enhancement dominates soil organic carbon accumulation in Chinese croplands. Proceedings of the National Academy of Sciences of the United States of America 115:4045−4050

Zhang L, Meng T, Zhang Z, Mu Y. 2023. Effects of organic fertilizer substitution on the technical efficiency among farmers: evidence from Bohai rim region in China. Agronomy 13:761

Lv N, Liu F, Zhu H, Wang G. 2023. Effect of government intervention and market incentives on farmer organic fertilizer application behavior and agricultural emission reduction. Natural Hazards Review 24:04022035

Wu H, Ge Y. 2019. Excessive application of fertilizer, agricultural non-point source pollution, and farmers' policy choice. Sustainability 11:1165

Li B, Shen Y. 2021. Effects of land transfer quality on the application of organic fertilizer by large-scale farmers in China. Land Use Policy 100:105124

Wang Y, Zhu Y, Zhang S, Wang Y. 2018. What could promote farmers to replace chemical fertilizers with organic fertilizers? Journal of Cleaner Production 199:882−890

Ma W, Abdulai A, Goetz R. 2018. Agricultural cooperatives and investment in organic soil amendments and chemical fertilizer in China. American Journal of Agricultural Economics 100:502−520

Stubenrauch J, Garske B, Ekardt F. 2018. Sustainable land use, soil protection and phosphorus management from a cross-national perspective. Sustainability 10:1988

van Grinsven HJM, ten Berge HFM, Dalgaard T, Fraters B, Durand P, et al. 2012. Management, regulation and environmental impacts of nitrogen fertilization in northwestern Europe under the Nitrates Directive; a benchmark study. Biogeosciences 9:5143−5160

Asci S, Borisova T, VanSickle JJ. 2015. Role of economics in developing fertilizer best management practices. Agricultural Water Management 152:251−261

European Parliament and Council. 2019. Regulation (EU) 2019/1009 on the making available on the market of EU fertilising products. Official Journal of the European Union, L170/1 https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:32019R1009

Bundesministerium für Ernährung und Landwirtschaft (BMEL). 2020. Verordnung über die Anwendung von Düngemitteln, Bodenhilfsstoffen, Kultursubstraten und Pflanzenhilfsmitteln nach den Grundsätzen der guten fachlichen Praxis beim Düngen (Düngeverordnung - DüV). www.ble-medienservice.de/1756-4-duengeverordnung-2020.html

Lehmann J, Kleber M. 2015. The contentious nature of soil organic matter. Nature 528:60−68

Quinton JN, Govers G, Van Oost K, Bardgett RD. 2010. The impact of agricultural soil erosion on biogeochemical cycling. Nature Geoscience 3:311−314

Song B, Almatrafi E, Tan X, Luo S, Xiong W, et al. 2022. Biochar-based agricultural soil management: an application-dependent strategy for contributing to carbon neutrality. Renewable and Sustainable Energy Reviews 164:112529

Department of Planting Management, Ministry of Agriculture and Rural Affairs. 2021. Organic fertilizers: NY/T 525-2021. China: China Agriculture Press

RAL Deutsches Institut für Gütesicherung und Kennzeichnung e. V. 2007. Qualitätssicherungssystem für Kompost: RAL-GZ 251. Germany: RAL Deutsches Institut für Gütesicherung und Kennzeichnung e. V.

Environmental Protection Agency. 1999. Organic materials management strategies: EPA 530-R-99-016. US: Environmental Protection Agency, EPA, Office of Solid Waste, Municipal and Industrial Solid Waste Division

Standards Australia. 2012. AS 4454-2012: Composts, soil conditioners and mulches. Australia: Standards Australia

Abdugheni R, Li L, Yang ZN, Huang Y, Fang BZ, et al. 2023. Microbial risks caused by livestock excrement: current research status and prospects. Microorganisms 11:1897

Bolan N, Adriano D, Mahimairaja S. 2004. Distribution and bioavailability of trace elements in livestock and poultry manure by-products. Critical Reviews in Environmental Science and Technology 34:291−338

He Y, Yuan Q, Mathieu J, Stadler L, Senehi N, et al. 2020. Antibiotic resistance genes from livestock waste: occurrence, dissemination, and treatment. npj Clean Water 3:4

Xu Y, Zhu L, Chen S, Wu H, Li R, et al. 2023. Risk assessment and dissemination mechanism of antibiotic resistance genes in compost. Environment International 178:108126

Yang L, Si B, Tan X, Xu J, Xu W, et al. 2022. Valorization of livestock manure for bioenergy production: a perspective on the fates and conversion of antibiotics. Resources, Conservation and Recycling 183:106352

Ministry of Agriculture and Rural Affairs. 2020. 2019 national cultivated land quality grade bulletin. https://ntjss.moa.gov.cn/zcfb/202006/P020200622573390595236.pdf

Chen R, Senbayram M, Blagodatsky S, Myachina O, Dittert K, et al. 2014. Soil C and N availability determine the priming effect: microbial N mining and stoichiometric decomposition theories. Global Change Biology 20:2356−2367

Cheng Y, Wang J, Wang J, Chang SX, Wang S. 2017. The quality and quantity of exogenous organic carbon input control microbial NO₃⁻ immobilization: a meta-analysis. Soil Biology and Biochemistry 115:357−363

Babla M, Katwal U, Yong MT, Jahandari S, Rahme M, et al. 2022. Value-added products as soil conditioners for sustainable agriculture. Resources, Conservation and Recycling 178:106079

Qasim S, Gul S, Ziad T, Yunus AW, Khan RU, et al. 2024. Influence of composted manures and co-composted biochar on growth performance of saffron and soil nutrients under varying electrical conductivity soil conditions: a two-year field study. Journal of Agriculture and Food Research 18:101467

Niamat B, Naveed M, Ahmad Z, Yaseen M, Ditta A, et al. 2019. Calcium-enriched animal manure alleviates the adverse effects of salt stress on growth, physiology and nutrients homeostasis of Zea mays L. Plants 8:480

Liu L, Wang S, Guo X, Wang H. 2019. Comparison of the effects of different maturity composts on soil nutrient, plant growth and heavy metal mobility in the contaminated soil. Journal of Environmental Management 250:109525

Huang M, Zhu Y, Li Z, Huang B, Luo N, et al. 2016. Compost as a soil amendment to remediate heavy metal-contaminated agricultural soil: mechanisms, efficacy, problems, and strategies. Water, Air, & Soil Pollution 227:359

Smolinska B. 2015. Green waste compost as an amendment during induced phytoextraction of mercury-contaminated soil. Environmental Science and Pollution Research 22:3528−3537

Zhou L, Xie Y, Wang X, Li P, Liu Y, et al. 2023. Influence of different microbial inoculants on nitrogen retention and diazotroph community succession during cotton straw composting. Process Safety and Environmental Protection 172:882−893

Wu Q, Wan W. 2023. Insight into application of phosphate-solubilizing bacteria promoting phosphorus availability during chicken manure composting. Bioresource Technology 373:128707

Li Y, Zhou M, Li C, Pan X, Lv N, et al. 2022. Inoculating indoleacetic acid bacteria promotes the enrichment of halotolerant bacteria during secondary fermentation of composting. Journal of Environmental Management 322:116021

Fang B, Yu J, Chen Z, Osman AI, Farghali M, et al. 2023. Artificial intelligence for waste management in smart cities: a review. Environmental Chemistry Letters 21:1959−1989

Zhao X, Dang Q, Wang Y, Zhang C, Chen Y, et al. 2023. Linking redox characteristics to dissolved organic matter derived from different biowaste composts: a theoretical modeling approach based on FT–ICR MS analysis. Environmental Science & Technology 57:15076−15086

Zhao X, Dang Q, Zhang C, Yang T, Gong T, et al. 2023. Revisiting organic waste-source-dependent molecular-weight governing the characterization within humic acids liking to humic-reducing microorganisms in composting process. Journal of Hazardous Materials 442:130049