Strong and Rapid Postfire Recovery of Vegetation Productivity in Australia

环境科学 植被(病理学) 像素 生产力 生态系统 灌木丛 遥感 初级生产 火情 降水 扰动(地质) 自然地理学 大气科学 生态学 地理 气象学 地质学 生物 宏观经济学 病理 古生物学 医学 经济 计算机科学 计算机视觉
作者
Li Pan,Xiangming Xiao,Yuanwei Qin,Josep G. Canadell,Alfredo Huete,Philippe Ciais,Shenglai Yin,Chenchen Zhang,Baihong Pan,Chenglong Yin,Meng Cheng,Yuan Yao,Haoming Xia
出处
期刊:Global Change Biology [Wiley]
卷期号:31 (7): e70321-e70321 被引量:3
标识
DOI:10.1111/gcb.70321
摘要

ABSTRACT Fires disrupt ecosystems, release carbon, and reduce carbon uptake, which increases atmospheric CO 2 concentration, warms the atmosphere, and fosters more frequent and intense fires. Quantifying postfire recovery is crucial for understanding the adaptability and resilience of ecosystems to fire disturbances. Observations from satellite‐derived active fire (~1‐km) and Gross Primary Productivity (GPP) products reveal that Australia experiences extensive fires annually, reducing vegetation productivity. Here we analyze the post‐fire GPP recovery trajectories of 1.7 × 10 6 fire‐affected pixels (or 1.5 × 10 6 km 2 ) in Australia between 2011 and 2019, of which 1.3 × 10 6 pixels (1.2 × 10 6 km 2 ) experienced a single fire (single‐fire pixels), and 0.4 × 10 6 pixels (0.3 × 10 6 km 2 ) experienced two or more fires (multiple‐fire pixels). We found that Australia's postfire GPP recovery was strong and rapid. 88% of single‐fire pixels recovered to 135% of the prefire level in an average of 2.3 years, whereas 86% of multiple‐fire pixels recovered to 115% of the prefire level in an average of 1.2 years. NonForest ecosystems (e.g., grasslands, shrublands, and savannas) exhibited a higher postfire recovery magnitude (138% for single‐fire pixels and 115% for multiple‐fire pixels) compared to Forest (110% for single‐fire pixels and 108% for multiple‐fire pixels). This rapid and robust postfire GPP recovery is significantly influenced by postfire precipitation, fire (i.e., fire frequency, intensity) and fire severity (damage, impacts; a metric of resistance of terrestrial ecosystems to fire). Specifically, higher fire severity and higher postfire precipitation have a positive impact on postfire recovery, whereas increased fire frequency has a negative impact. Furthermore, fire dynamics have a smaller role in the long‐term interannual continental GPP changes than climate or land‐use changes, as strong and rapid GPP recovery offsets the short‐term fire‐induced GPP losses.
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