农田生态系统有机物料腐解过程及土壤培肥机制研究

Decomposition processes of organic materials and their mechanisms of improving soil fertility in cropland ecosystems

  • 摘要: 农田生态系统是受人为活动干扰最多的陆地生态系统, 土壤有机质丰富和养分均衡是保证农作物生长需要、土壤生物和谐共生和系统生产力维持稳定的基本要素。农作物秸秆、畜禽粪便是农田生态系统的主要外源有机物料, 也是农田土壤有机质的重要来源。有机物料还田可有效增加土壤有机质积累、培肥土壤、促进作物稳产增产。有机物料还田后经过一系列复杂的物理、化学和生物学腐解过程, 最终转化为土壤有机质。这一复杂的腐解过程受有机物料自身性质、土壤类型及其背景属性、气候因子和农田管理措施等多重作用综合调控, 因此备受科学界关注。本文综述了农田生态系统有机物料的腐解过程及其主要影响因素、还田后腐解产物对土壤养分库及土壤质量影响方面的主要研究进展, 进一步总结了有机物料还田转化为土壤有机质的作用机制。从表征有机物料腐解结构变化的手段和指标着手, 解析有机物料腐解过程中有机物料和土壤的化学结构组成的变化特征, 揭示影响有机物料腐解的主要因素(有机物料的质量、组分和化学结构, 以及环境因素), 综合分析有机物料还田对土壤碳库、活性有机碳、腐殖质组成以及养分库的影响, 从土壤物理、化学和生物学性状以及作物产量角度综合评价有机物料还田培肥土壤的效果, 深入解析有机物料腐解转化为土壤有机质的物理学、化学及生物学调控过程及机制。最后对未来开展农田生态系统有机物料还田腐解过程及作用机制的深入研究进行展望, 以期为农田生态系统有机物料高效还田培肥土壤、优化农田管理措施提供理论依据和数据支持。

     

    Abstract: Cropland ecosystems are terrestrial ecosystems that are highly disturbed by human activity. Fertile soil, organic matter, and balanced nutrients play fundamental roles in ensuring crop growth, harmonious symbiosis of soil organisms, and stability of ecosystem productivity. In cropland ecosystems, crop straw and livestock manure are two main exogenous organic materials that are incorporated into soils; and are the main sources of soil organic matter. The incorporation of organic materials into soils can increase soil organic carbon accumulation, improve soil fertility, and enhance crop yield. Organic materials are ultimately transformed into soil organic matter (SOM) after undergoing a series of complex physical, chemical, and biological decomposition processes. These complex decomposition processes are controlled by many factors, such as organic materials properties, soil types and their inherent characteristics, environmental conditions, and agricultural management practices. Therefore, these processes and their driving factors are receiving increasing attention worldwide. This article comprehensively reviewed the main research progress in the decomposition characteristics of organic materials and their main influencing factors. The effects of organic amendments on soil nutrient pools and soil quality and the underlying mechanisms regulating the transformation of organic materials to soil organic matter were also discussed. This study first outlined the main methods and indicators for characterizing the decomposition processes of organic materials, analyzed the characteristics of the chemical structure of organic materials and soil during decomposition, and revealed the main factors regulating the decomposition processes of organic materials (environmental factors; the quality, composition, and chemical structure of organic materials). Second, the contributions of organic material incorporation to the soil organic carbon pool, active organic carbon, humus composition, nutrient pools, and soil quality were evaluated. Effects of incorporating organic materials on soil fertility were discussed in terms of crop yield and soil physical, chemical, and biological properties. Third, the underlying physical, chemical, and biological mechanisms regulating the transformation of organic materials to soil organic matter were illustrated. Finally, prospects for future research on the processes and mechanisms of organic material decomposition in the cropland ecosystems were presented, as listed in the following points: to optimize scientific and reasonable measures for organic materials returning to the field by considering local conditions, long-term positioning field experiments and cross-regional network experiments. The optimal ratio between the labile and recalcitrant components of organic materials must be quantified to achieve a highly efficient decomposition degree of the organic materials. More advanced and elaborate techniques are advocated to be applied together to characterize the decomposition products more comprehensively and accurately. This review is expected to provide a theoretical basis and data support for interpreting the decomposition and transformation processes of organic materials and optimizing cropland management practices in cropland ecosystems.

     

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