Research Progress and Development Trends of Greenhouse Gas Emissions from Cereal–Legume Intercropping Systems

Yao, Fanyun; Wu, Yang; Liu, Xiaodan; Cao, Yuwei; Lv, Yanjie; Wei, Wenwen; Wang, Xu; Liu, Zhiming; Liu, Jie; Wang, Yongjun

doi:10.3390/agronomy13041085

Cited by 3 publications

(2 citation statements)

References 52 publications

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“…However, the current study reveals that about 38% of organic elds in the region have N content above 190 kg ha − 1, whereas 56.25% of chemicalized elds show N content above that critical level. However, the chemicalized elds show a signi cantly high percentage of global warming potential; the data indicate that some of the organic elds are similar to the chemicalized elds in N content, especially the 3.52% elds showing N > 560 kg ha − 1 because the natural means to control freely available N in the eld soil (Yao et al, 2023) per organic agricultural norms are not found in such elds. Another reason for an excessive N in organic elds is the application of poultry manure rich in N content by farmers in organic areas without a limit.…”

Section: San Over Organic and Chemicalized Eldsmentioning

confidence: 93%

Sustainability of Organic Farming from a Global Perspective: A Critical Analysis of Soil Types and Fertility Status of Organically Managed vs. Chemicalized Vegetable Fields of South India

George,

Ray

2023

Preprint

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Aims: Globally, organic farming is emerging as a promising alternative to chemicalized agriculture in overcoming agricultural challenges. However, experts often question its efficiency in maintaining soil fertility to sustain the global demand for agricultural production. South India, characterized by its rich agricultural heritage and diverse agroecosystems, stands as a unique test ground for analyzing the problems and prospects of sustainable organic farming. Therefore, the primary goal of the current studywas to assess the soil fertility status of organic vegetable fields concerning various agroclimatic zones, soil types, seasons, organic practices, and vegetable crops in South India as a model for global comparisons. Method: The approach was an assessment of soil quality parameters such as soil pH, total organic carbon (TOC), soil available nitrogen (SAN), soil available phosphorus (SAP), and soil available potassium (SAK) as the basis of soil fertility status and to compare the soil quality at different levels. Results: The organic fields didn't exhibit distinctiveness in soil parameters from that of chemicalized fields except for soil-specific variations in some fields. Soil fertility status was at par with chemicalized fields in the region. The region does not consistently monitor nutrient levels concerning soil type, climate, or seasons. Different kinds of organic practiceshad no significant influence on soil quality. Conclusion: The study highlights the need for global standardization of procedures in organizing organic agriculture as a sustainable model of agricultural production.

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Section: San Over Organic and Chemicalized Eldsmentioning

confidence: 93%

Sustainability of Organic Farming from a Global Perspective: A Critical Analysis of Soil Types and Fertility Status of Organically Managed vs. Chemicalized Vegetable Fields of South India

George,

Ray

2023

Preprint

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“…The use of legume species in crop rotation of organic sweet corn production systems is inevitably practiced to maintain the quality of land resources and sweet corn productivity. Although cereallegume intercropping is a typical planting strategy for diversification that has been developed to accomplish the double objectives of high output and low greenhouse gas emissions (Yao et al, 2023), more cereal-legume intercropping research needs to be conducted, especially in organic vegetables production system. A challenge specific to sweet corn-peanut intercropping under organic production systems is ensuring both sweet corn and peanut benefit from this cropping system.…”

Section: Peanut Responsesmentioning

confidence: 99%

Agronomic Responses of Sweet Corn - Peanut Intercropping to Liquid Organic Fertilizer Grown in Different Dosages of Vermicompost

2023

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Applying organic fertilizer and intercropping systems are among the techniques for preserving land sustainability in organic vegetable production systems. In organic vegetable production, the use of liquid organic fertilizer has been suggested in addition to the use of solid organic fertilizer. This study evaluates how growth and yields of sweet corn and peanuts grown utilizing row intercropping respond to different vermicomposting dosages. A factorial experiment is arranged using a split-plot design with three replicates. The main plot is vermicomposting dosages; 5, 10, 15, 20, and 25 Mg/ha, and the sub-plot was the applications of liquid organic fertilizer, not fertilized and fertilized with liquid organic fertilizer. Results show that the application of liquid organic fertilizer elevated plant height and leaf area, length, diameter, and weight of husked ears of sweet corn. Vermicomposting increased plant height, husked ear length, husked ear diameter, and husked ear fresh weight of sweet corn. Twenty Mg/ha is the best dosage for producing sweet corn intercropped with peanuts. However, using vermicompost and liquid organic fertilizers did not increase the growth and yields of peanuts. Evaluation of nutrient uptakes by intercropped crops, sweet corn, and peanut, in organic production systems, should be the subject of further study.

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Introduction of soybean into maize field reduces N2O emission intensity via optimizing nitrogen source utilization

Zhang,

Lu,

Bai

et al. 2024

Journal of Cleaner Production

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Research Progress and Development Trends of Greenhouse Gas Emissions from Cereal–Legume Intercropping Systems

Cited by 3 publications

References 52 publications

Sustainability of Organic Farming from a Global Perspective: A Critical Analysis of Soil Types and Fertility Status of Organically Managed vs. Chemicalized Vegetable Fields of South India

Sustainability of Organic Farming from a Global Perspective: A Critical Analysis of Soil Types and Fertility Status of Organically Managed vs. Chemicalized Vegetable Fields of South India

Agronomic Responses of Sweet Corn - Peanut Intercropping to Liquid Organic Fertilizer Grown in Different Dosages of Vermicompost

Introduction of soybean into maize field reduces N2O emission intensity via optimizing nitrogen source utilization

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