气候变化领域集成服务门户(CCPortal): Biomass status and dynamics over Canada's forests: Disentangling disturbed area from associated aboveground biomass consequences

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DOI	10.1088/1748-9326/ab8b11
	Biomass status and dynamics over Canada's forests: Disentangling disturbed area from associated aboveground biomass consequences
	Wulder M.A.; Hermosilla T.; White J.C.; Coops N.C.
发表日期	2020
ISSN	17489318
卷号	15 期号:9
英文摘要	Forested ecosystems dominated by trees, wetlands, and lakes occupy more than 65% of Canada's land base. This treed area is dynamic, subject to temporary reductions in area and biomass due to wildfire and timber harvesting, and increases due to successional processes and growth. As such, the net aboveground biomass accumulated over time is a function of multiple, complex factors: Standing forests grow and accrue biomass over time, whereas disturbed forests lose biomass, and subsequent regeneration processes result in biomass accrual once again. Knowledge of these processes behind biomass gain and loss is important for a range of considerations including habitat provision, economic opportunities, and exchange of carbon between forests and the atmosphere. Herein, we used a 33 year satellite-derived time series of aboveground biomass estimates for Canada's forested ecosystems to quantify biomass dynamics partitioned by the presence or absence of disturbance, and by disturbance type. Findings suggest that over the analysis period considered (1984-2016), undisturbed forests accounted for accrual of 3.90 Petagrams (Pg) of biomass. In contrast, while occupying ∼75% less area, disturbed forests accounted for a loss of 3.94 Pg biomass. Of this total biomass reduction, 45.4% can be attributed to wildfire, 43.8% to harvesting, 8.3% to non-stand replacing disturbances, and 2.5% to detectable roads and infrastructure development. Following disturbance, an additional 1.32 Pg of biomass were accrued during the analysis period, along with an additional 4.09 Pg in newly treed areas. Overall, Canada's forested ecosystems have realized a net increase in biomass of 5.38 Pg. Results of this analysis demonstrate the decoupling of area disturbed from the resulting biomass consequences by disturbance type, with large areas of wildfire accounting for a change in biomass that is similar to that of forest harvesting, which occurs over a much smaller area of mature and productive forest. © 2020 The Author(s). Published by IOP Publishing Ltd.
英文关键词	Carbon; Climate; Land cover; Landsat; Lidar; Remote sensing; Structure; Time series
语种	英语
scopus关键词	Ecosystems; Fires; Harvesting; Knowledge management; Logging (forestry); Reforestation; Above ground biomass; Economic opportunities; Forest harvesting; Infrastructure development; Regeneration process; Successional process; Timber harvesting; Undisturbed forests; Biomass; aboveground biomass; climate change; forest ecosystem; wildfire; Canada
来源期刊	Environmental Research Letters
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/153713
作者单位	Canadian Forest Service (Pacific Forestry Centre), Natural Resources Canada, 506 West Burnside Road, Victoria, BC 1M5, Canada; Integrated Remote Sensing Studio, Department of Forest Resources Management, University of British Columbia, Main Mall 2424, Vancouver, BC 1Z4, Canada
推荐引用方式 GB/T 7714	Wulder M.A.,Hermosilla T.,White J.C.,et al. Biomass status and dynamics over Canada's forests: Disentangling disturbed area from associated aboveground biomass consequences[J],2020,15(9).
APA	Wulder M.A.,Hermosilla T.,White J.C.,&Coops N.C..(2020).Biomass status and dynamics over Canada's forests: Disentangling disturbed area from associated aboveground biomass consequences.Environmental Research Letters,15(9).
MLA	Wulder M.A.,et al."Biomass status and dynamics over Canada's forests: Disentangling disturbed area from associated aboveground biomass consequences".Environmental Research Letters 15.9(2020).