Abstract
Forests are under pressure from land use change due to anthropogenic activities. Land use change and harvest are the main disturbances of forest landscape changes. Few studies have focused on the relative contributions of different disturbances. In this study, we used the CA-Markov model, a land-use change model, coupled with a forest landscape model, LANDIS-II, to simulate dynamic change in Taihe County, China, from 2010 to 2050. Scenarios analysis was conducted to quantify the relative contributions of land use change and harvest. Our results show that forestland and arable land will remain the primary land-use types in 2050, whereas the built-up land will sprawl drastically. Land use change and harvest may result in the significant loss of forest area and changes in landscape structure. The simulated forest area will increase by 16.2% under the no disturbance scenario. However, under harvest, forest conversion, and integrated scenario, the area will be reduced by 5.2%, 16.5%, and 34.9%, respectively. The effect of harvest is gradually enhanced. The land use change will account for 60% and harvest will account for 40% of forest landscape change in 2050, respectively. Our results may benefit from the integration of regional forest management and land-use policy-making, and help to achieve a trade-off between economy and ecological environment.
Highlights
Forests, one of the most important terrestrial ecosystems, cover almost 31% of the world, and significantly contribute to global wood production, and to crucial ecosystem services like CO2 sequestration, soil protection, and climate change effects mitigation [1,2]
The results show that the land use change mainly occurs on the border of the arable land, which is located on gentle slope terrain, such as in Ecoregion
The results show that land use change mainly occurs in the center of our study area, and the harvest events are in the coniferous forest area
Summary
One of the most important terrestrial ecosystems, cover almost 31% of the world, and significantly contribute to global wood production, and to crucial ecosystem services like CO2 sequestration, soil protection, and climate change effects mitigation [1,2]. In terms of diverse natural and anthropogenic disturbances, land use change and harvest are the two most remarkable and direct factors affecting the forest landscape [8,9,10]. These anthropogenic disturbances are the most effective way for achieving regional forest management objectives. Land use change and harvest appear at a local and regional scale [11]. Many studies have been conducted to investigate forest changes in response to disturbances of land use change and harvest on a regional and landscape scale [7,12]. Drummond and Loveland [3]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
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
