甘露效应--加拿大濒危深雪山驯鹿(Rangifer arcticus montanus)毛发地衣丰度影响因素综述

Trevor Goward, Darwyn Coxson, Yngvar Gauslaa
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摘要

加拿大濒危的深雪山驯鹿(DSC)是不列颠哥伦比亚省南部内陆山区的特有物种,它们在冬季几乎只以附生毛地衣为食,尤其是Bryoria fremontii和B. pseudofuscescens(高生物量的Bryoria属)以及Alectoria sarmentosa。重要的是,在树龄小于120-150年的森林中,很少出现足以满足DSC食物需求的立地毛地衣负载量,这是一种不寻常的古老森林依赖形式,假设与古老森林生态系统的某些结构特征有关。这一假说不仅与最近对毛发地衣生态生理学的深入研究相吻合,而且还为高生物量地衣属(Bryoria spp.)提出了一个概念性的 "超丰度 "模型,并为刺毛地衣属(A. sarmentosa)的类似模型奠定了基础。在这两种情况下,模型都表明在古老森林的上层有大量的毛地衣;正是这些毛地衣在一定程度上通过向下层树冠不断释放甘露般的苔藓碎片雨,维持了冬半年的DSC。这样就形成了一个持续产量系统,它可以抵御过度采伐造成的退化,但却很容易受到工业化林业对原始森林的破坏,而这是一个逐渐减少饲料的过程,最终一定会使 DSC 面临冬季营养不良的风险。我们的结论是,林分水平的毛地衣超丰度必然是森林树龄较长的属性,至少就Bryoria而言,在树龄小于约120-150年的林分中无法通过造林诱导。
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The Manna Effect – a review of factors influencing hair lichen abundance for Canada's endangered Deep-Snow Mountain Caribou (Rangifer arcticus montanus)
Canada's endangered Deep-Snow Mountain Caribou (DSC) are endemic to mountainous southern inland British Columbia, where they subsist in winter on an almost exclusive diet of epiphytic hair lichens, especially Bryoria fremontii and B. pseudofuscescens (the high-biomass Bryoria spp.) and Alectoria sarmentosa. Importantly, stand-level hair lichen loadings adequate for the dietary needs of DSC rarely occur in forests younger than c. 120–150 years, an unusual form of old-growth dependence hypothetically linked to certain structural features of old forest ecosystems. Not only does this hypothesis accord well with recent insights into hair lichen ecophysiology, it also allows the formulation of a conceptual ‘hyperabundance’ model for the high-biomass Bryoria spp. and lays the foundation for a similar model for A. sarmentosa. In both cases the models point to a massive standing crop of hair lichens in the overstories of old-growth forests; it is this reservoir that, partly by releasing a constant manna-like rain of thallus fragments into the lower canopy, sustains DSC during the winter half year. The outcome is a sustained-yield system resistant to degradation from overbrowsing, yet vulnerable to fragmentation of old-growth forests by industrial forestry, a process of progressive forage reduction that must ultimately place DSC at risk of winter malnutrition. We conclude that stand-level hair lichen hyperabundance is necessarily an attribute of advanced forest age and, at least in the case of Bryoria, cannot be silviculturally induced in stands younger than c. 120–150 years.
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