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首页> 外文期刊>Ecological Applications >Fuel-reduction management alters plant composition, carbon and nitrogen pools, and soil thaw in Alaskan boreal forest
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Fuel-reduction management alters plant composition, carbon and nitrogen pools, and soil thaw in Alaskan boreal forest

机译:燃料还原管理改变植物组成,碳和氮池,以及阿拉斯加北部森林的土壤解冻

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Increasing wildfire activity in Alaska's boreal forests has led to greater fuelreduction management. Management has been implemented to reduce wildfire spread, but the ecological impacts of these practices are poorly known. We quantified the effects of handthinning and shearblading on above- and belowground stand characteristics, plant species composition, carbon (C) and nitrogen (N) pools, and soil thaw across 19 sites dominated by black spruce (Picea mariana) in interior Alaska treated 2-12 years prior to sampling. The density of deciduous tree seedlings was significantly higher in shearbladed areas compared to unmanaged forest (6.4 vs. 0.1 stems/m~2), and unmanaged stands exhibited the highest mean density of conifer seedlings and layers (1.4 stems/m~2). Understory plant community composition was most similar between unmanaged and thinned stands. Shearblading resulted in a near complete loss of aboveground tree biomass C pools while thinning approximately halved the C pool size (1.2 kg C/m~2 compared to 3.1 kg C/m~2 in unmanaged forest). Significantly smaller soil organic layer (SOL) C and N pools were observed in shearbladed stands (3.2 kg C/m~2 and 116.8 g N/m~2) relative to thinned (6.0 kg C/m~2 and 192.2 g N/m~2) and unmanaged (5.9 kg C/m~2 and 178.7 g N/m~2) stands. No difference in C and N pool sizes in the uppermost 10 cm of mineral soil was observed among stand types. Total C stocks for measured pools was 2.6 kg C/m~2 smaller in thinned stands and 5.8 kg C/m~2 smaller in shearbladed stands when compared to unmanaged forest. Soil thaw depth averaged 13 cm deeper in thinned areas and 46 cm deeper in shearbladed areas relative to adjacent unmanaged stands, although variability was high across sites. Deeper soil thaw was linked to shallower SOL depth for unmanaged stands and both management types, however for any given SOL depth, thaw tended to be deeper in shearbladed areas compared to unmanaged forest. These findings indicate that fuel-reduction management
机译:增加阿拉斯加北方森林的野火活动导致了更大的燃料化管理。管理层已实施以减少野火蔓延,但这些实践的生态影响众所周知。我们量化了单层素和沉淀在地上和低于地表特征,植物种类组成,碳(C)和氮气(n)池中的影响,以及由黑云杉(Picea Mariana)的19个地点的土壤解冻在室内阿拉斯加治疗2在抽样前 - 12年。与非托管森林相比,落叶树幼苗密度显着高(6.4与0.1茎/ m〜2),并且非托管支架表现出针叶树幼苗和层的最高平均密度(1.4茎/ m〜2)。床上植物群群组织构成在非托管和稀释的立场之间最相似。 ShearBlading导致了地上树木生物量C池的近乎完全损失,同时减少了C池大小(1.2千克C / M〜2,与非托管林中的3.1kg C / M〜2相比)。在相对于变薄(6.0kg C / m〜2和192.2g / 4.0kg c / m〜2和192.2g / M〜2)和非托管(5.9千克C / M〜2和178.7 G n / m〜2)。在待机类型之间观察到最高10厘米的矿物土壤中C和N池尺寸的差异。与非托管森林相比,测量池的C总量为2.6千克C / M〜2,在薄的支架中较小,在搁置的架子中较小。虽然横跨相邻的非托管展示,但是在稀薄区域的稀释区域中的薄层深度平均为13厘米,较深的区域较深的区域,虽然有变异性很高。更深的土壤解冻与非托管支架的较浅的溶胶深度有关,并且对于任何给定的溶胶深度,对于任何给定的溶胶深度来说,与非托管森林相比,解冻往往更深。这些发现表明燃油减排管理

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