Rice residue management: Alternative strategies and emerging technologies for a sustainable ecosystem

被引:1
作者
Parshad, Jagdish [1 ]
Kumar, Ravinder [1 ]
Chhokar, Vinod [1 ]
Patil, Nagaraj [2 ]
Beniwal, Vikas [3 ]
Singh, Namita [1 ]
Kumar, Ajay [4 ]
Singh, Nitesh [5 ]
Yogi, Rajesh [6 ]
Kumar, Mukesh [7 ]
Vikram, Prashant [5 ]
Chauhan, Avnish [8 ]
Kumar, Anil [1 ]
机构
[1] Guru Jambheshwar Univ Sci & Technol, Dept Bio & Nanotechnol, Hisar 125001, India
[2] Jain Deemed Univ, Sch Engn & Technol, Dept Mech Engn, Bangalore 560078, Karnataka, India
[3] Cent Univ Haryana, Dept Microbiol, Mahendragarh 123031, India
[4] Chaudhary Charan Singh Haryana Agr Univ, Dept Microbiol, Hisar 125004, India
[5] Shree Guru Gobind Singh Tricentenary Univ, Fac Allied Hlth Sci, Gurugram 122505, Haryana, India
[6] Chandigarh Univ, Univ Inst Biotechnol, Mohali 140413, Punjab, India
[7] Ambala Coll Engn & Appl Res, Dept Biotechnol, Ambala 133101, India
[8] Grap Era Hill Univ, Dept Environm Sci, Dehra Dun 248002, Uttarakhand, India
来源
PEDOSPHERE | 2025年 / 35卷 / 01期
关键词
biochar; biomethanation; burning; composting; in situ decomposition; lignocellulosic; mulching; rice husk; rice straw; TERM STRAW RETURN; SOIL MICROBIAL COMMUNITY; WHEAT CROPPING SYSTEM; INDO-GANGETIC PLAINS; PADDY STRAW; NITROGEN-FERTILIZATION; BIOETHANOL PRODUCTION; STUBBLE MANAGEMENT; ORGANIC-MATTER; PRETREATMENT;
D O I
10.1016/j.pedsph.2024.06.004
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
Rice straw, which is produced after the harvest of rice, is a major agricultural waste in the world. Rice straw has a high carbon/nitrogen ratio and is more resistant to microbial degradation than other straws because its main constituents are cellulose and hemicelluloses encrusted by lignin. When rice straw is burned, hazardous substances such as carbon dioxide, methane, carbon monoxide, and nitrogen monoxide are released into the air as smoke (less than 10 mu m-sized particles). The rise in the burning of rice straw has contributed to too many accidents and health issues in the general population residing in Haryana, Punjab, and Uttar Pradesh of India. These states are being urged by the National Green Tribunal to generate money instead of burning rice straw. Even though these lignocellulosic materials might be beneficial, not much has been carried out with them. This overview covers the properties of rice straw and husks, the numerous procedures used to create valuable products, and various applications that may be made for them. These include energy sources, environmental adsorbents, building supplies, and specialist commodities.
引用
收藏
页码:53 / 66
页数:14
相关论文
共 115 条
  • [81] Satlewal A., Agrawal R., Bhagia S., Das P., Ragauskas A.J., Rice straw as a feedstock for biofuels: Availability, recalcitrance, and chemical properties, Biofuels Bioprod Biorefin, 12, pp. 83-107, (2018)
  • [82] Sharma A., Sharma R., Arora A., Shah R., Singh A., Pranaw K., Nain L., Insights into rapid composting of paddy straw augmented with efficient microorganism consortium, Int J Recycl Org Waste Agric, 3, (2014)
  • [83] Shukla L., Suman A., Verma P., Yadav A.N., Saxena A.K., Syntrophic microbial system for ex-situ degradation of paddy straw at low temperature under controlled and natural environment, J Appl Biol Biotech, 4, pp. 30-37, (2016)
  • [84] Singh N., Jiwani G., Rocha L.S., Mazaheri R., Bioagents and volatile organic compounds: An emerging control measures for rice bacterial diseases, Bacterial Diseases of Rice and Their Management, pp. 255-274, (2023)
  • [85] Singh S., Nain L., Microorganisms in the conversion of agricultural wastes to compost, Proc Indian Natl Sci Acad, 80, pp. 473-481, (2014)
  • [86] Singh S., Singh B., Mishra B.K., Pandey A.K., Nain L., Microbes in agrowaste management for sustainable agriculture, Microorganisms in Sustainable Agriculture and Biotechnology, pp. 127-151, (2012)
  • [87] Singh V.K., Dwivedi B.S., Shukla A.K., Chauhan Y.S., Yadav R.L., Diversification of rice with pigeonpea in a rice-wheat cropping system on a Typic Ustochrept: Effect on soil fertility, yield and nutrient use efficiency, Field Crops Res, 92, pp. 85-105, (2005)
  • [88] Singh Y., Sidhu H.S., Management of cereal crop residues for sustainable rice-wheat production system in the Indo-Gangetic plains of India, Proc Indian Natl Sci Acad, 80, pp. 95-114, (2014)
  • [89] Spiegel H., Sanden T., Dersch G., Baumgarten A., Grundling R., Franko U., Soil organic matter and nutrient dynamics following different management of crop residues at two sites in Austria, Soil Management and Climate Change, pp. 253-265, (2018)
  • [90] Spokas K.A., Koskinen W.C., Baker J.M., Reicosky D.C., Impacts of woodchip biochar additions on greenhouse gas production and sorption/degradation of two herbicides in a Minnesota soil, Chemosphere, 77, pp. 574-581, (2009)
3456789101112