Abstract
Understanding the impact of climate change on range shifts in climatically suitable habitats of tree species is important for national afforestation planning, which can enhance the adaptation of tree plantation to climate change through movement of tree to follow suitable climatic conditions. Here, we overlap the current and future climate-related ranges of Chinese sea buckthorn (Hippophae rhamnoides subsp. sinensis), an important tree used for afforestation in China, to estimate the range shift in three geographic dimensions (latitude, longitude and elevation) between 2000 and 2070, which are projected by the maximum entropy algorithm (MaxEnt) under current climate conditions and four climate change scenarios (RCP2.6, RCP4.5, RCP6.0, and RCP8.5). Our results show that the performance of the MaxEnt is highly accurate, with test AUC (area under the receiver operating characteristic curve) value of 0.91, Kappa value of 0.83 and predicted accuracy of 92%. About 10.7% area of land in China is climatically suitable for Chinese sea buckthorn plantation. Low representative concentration paths will have more effect on loss of climatic range and less effect on expansion of climatic range for Chinese sea buckthorn, while the impacts of high representative concentration path is the opposite. The centroids of climatic ranges will shift westward or northwestward at the rate of 10.4–22 km per decade, and the centroids of altitude will shift upward at the rate of 43–128 m per decade. The expansion area of climatically suitable habitat, covering 2.6–5.2 × 105 km2, is expected to be mainly located in parts of Qinghai, Ningxia, Gansu, Sichuan, Liaoning, and Jilin provinces; these areas should be monitored for planting of Chinese sea buckthorn in the future.
Highlights
The Chinese government has long been devoted to revegetation and ecological reconstruction [1].Afforestation, as an effective method of quickly restoring forest landscape, can meet the increased demand for forest timber production related to population growth while playing a significant role in controlling soil erosion and increasing biodiversity [2]
We aimed to investigate the impact of climate change on climatically suitable habitat of the target species with maximum entropy algorithm (MaxEnt) [20], which expresses the suitability of a grid cell as a function of the climatic variables at that grid cell in a landscape, together with a set of sample locations where the plant species was observed
We projected the effect of climate change on climatic ranges of Chinese sea buckthorn using species distribution model under four representative concentration paths (RCP2.6, RCP4.5, RCP6.0, RCP8.5) in the 2070s
Summary
The Chinese government has long been devoted to revegetation and ecological reconstruction [1].Afforestation, as an effective method of quickly restoring forest landscape, can meet the increased demand for forest timber production related to population growth while playing a significant role in controlling soil erosion and increasing biodiversity [2]. In the past, identifying planting for tree species in China was based on the current climatically suitable habitat of tree species, and it seldom considered the potential extent and location shift in climatic ranges of tree species under future climate change [3], which is very important to identify plantations that are potentially at significant risk of extinction in the future [4,5]. Climate-related ranges of species may shift, contract, expand, or fragment in response to the changing climate [6]. Forests 2018, 9, 9 potential range shift in climatically suitable habitat of specific tree species in response to climate change are urgently needed. Species distribution modeling (SDM, known as niche-based modeling) has been widely used to project the effects of climate change on species distribution pattern [7], which assumes that present and future distributions of species are dependent mostly on the climate requirement [8]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
