Abstract
BackgroundForest management strategies such as thinning have long been used to enhance ecosystem functions, especially in plantations. Thinning in plantations with high deer density, however, may not yield a desired increase in understory vegetation because deer graze on germinating plants after thinning. Here, we examine the changes in understory vegetation after thinning in plantations that have been overgrazed by sika deer to provide insight into the effects of thinning on ecosystem functions such as soil conservation and biological diversity.MethodsWe conducted our survey in the Tanzawa Mountains of eastern Japan. We surveyed the change in understory vegetation within and outside of three deer exclosures on a single slope with three levels of understory vegetation cover: sparse (1%, exclosure “US”), moderate (30%, exclosure “MM”), and dense (80%, exclosure “LD”) over 10 years after a 30% thinning of an old-growth cedar and cypress plantation which was overgrazed by sika deer.ResultsUnderstory vegetation cover, biomass and species richness increased within and outside the “US” and “MM” exclosures after thinning, and biomass was greater within than outside the exclosures at 10 years after thinning. Unpalatable species dominated both “US” and “MM” exclosures before thinning, and trees and shrubs dominated within the exclosures over time after thinning. In contrast, unpalatable, grazing-tolerant, perennial, and annual species increased outside the “US” and “MM” exclosures. No noticeable changes were observed within and outside the “LD” exclosure when compared with the “US” and “MM” exclosures.ConclusionsOur results suggest that thinning a stand by 30% based on volume resulted in an increase in understory vegetation cover mainly composed of both unpalatable and grazing-tolerant species in a plantation forest where understory vegetation is sparse or moderate and sika deer density is high. We emphasize that establishing deer exclosures or controlling deer is essential to maintaining similar understory vegetation both within and outside exclosures.
Highlights
Forest management strategies such as thinning have long been used to enhance ecosystem functions, especially in plantations
We addressed the following questions: 1) did thinning in an old-growth plantation increase understory vegetation cover, biomass, species richness, and species diversity under severe deer grazing pressure? 2) if so, what are the types of species that benefited from thinning, such as palatable or grazing-tolerant species?
The results obtained outside the “US” and “MM” exclosures showed that understory vegetation cover, biomass and species richness of this old-growth plantation increased over time after thinning, even under severe deer grazing pressure
Summary
Forest management strategies such as thinning have long been used to enhance ecosystem functions, especially in plantations. Forest management has been designed to enhance ecosystem functions such as biodiversity even in plantations in recent decades (Nagaike 2000; Hartley 2002; Carnus et al 2006; Felton et al 2010). Conifer plantations composed mainly of sugi (Cryptomeria japonica) and hinoki (Chamaecyparis obtusa) cover about 10 million ha or about 40% of the forested area in Japan (Japan Forestry Agency 2015). These include many inadequately-managed plantations (because of low wood prices) and this lack of management has created problems related to ecosystem functions such as soil conservation (Japan Forestry Agency 2015). Inadequate thinning produces only a limited increase in understory vegetation cover (Ito 2006)
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