森林生态系统粗木质残体分解研究动态

Decomposition of Coarse Woody Debris in Forest Ecosystem: a Review

  • 摘要: 粗木质残体(CWD)是森林生态系统中重要且敏感的碳库和养分库,在碳循环与碳平衡的研究中具有重要地位与作用。系统把握CWD分解的方法体系及影响因素,对森林生态系统的能量流动及物质循环、判断其在全球碳循环与碳平衡中的地位和作用、完善营林策略、维护森林生态系统完整性和稳定性等方面具有重要意义。本研究从CWD的分解过程、分解速率量化方法、分解过程模型和影响分解的主要因素等方面系统总结了CWD分解相关研究进展,综述了分解速率的3种研究方法(长期监测法、空间代时间法和分解向量法)以及驱动CWD分解的因素除树种、树木尺寸、着地状态外,还受环境因素(温度和水分,还包括光强、大气氮沉降、树冠开阔度、分解者主场效应、分解者类型与亲和性)的影响。通过分析目前CWD分解研究中的不足,提出3点展望:1)建立长期监测体系,利用高精度时间分辨率数据了解不同尺度上CWD分解的动态变化规律;2)完善分解模型,对CWD分解进行长期监测研究,探究不同地区分解模式的异同;3)考虑由干扰引起的分解变化所导致的净碳通量特征及林分异质生境对CWD分解的影响。

     

    Abstract: Coarse woody debris(CWD) is an important and sensitive carbon as well as the nutrient pool in forest ecosystem. It has a vital role in the research of carbon cycle and balance. Grasping the methodological system and influencing factors of CWD decomposition is important for the energy flow and material cycle of forest ecosystem, judging its position and role in the global carbon cycle and carbon balance, improving forest management strategies, and maintaining the integrity and stability of forest ecosystem. It is summarized the progress of CWD decomposition respiration in the review: decomposition process, decomposition rate quantification methods, decomposition process model and main factors. There are 3 methods for studying decomposition rates(long-term monitoring method, chronosequences, and decomposition vector) and the main factors driving decomposition, in addition to their characteristics (species controls, piece size, stand and downed position), are also influenced by environmental factors, such as mainly temperature and moisture, light intensity, canopy openness and atmospheric nitrogen deposition, stand habitat conditions, decomposers(type, home-field advantage). By analyzing the shortcomings of the current CWD decomposition studies, 3 perspectives are proposed: 1) to establish a long-term monitoring system and use high-precision time-resolved data to understand the dynamic changes of CWD decomposition at different scales; 2) to improve the decomposition model, conduct long-term monitoring studies on CWD decomposition, and explore the differences and similarities of decomposition patterns in different regions; 3) to consider the net ecosystem carbon flux characteristics caused by disturbance-induced decomposition changes and the influence of heterogeneous habitats on CWD decomposition.

     

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