Abstract
Over the past two decades, the demands of nature-based tourism have been rapidly growing worldwide, yet it is not clear how tourist demands for water, food, and infrastructure influence the ecosystem services (ES), which are often the bedrock of an area’s economic, cultural, and natural wealth. With a general conceptual model that applies the telecoupling framework, this study identifies complex interrelationships between the demand for nature-based tourism, which is a type of cultural ES, ES supply, and the economy simultaneously, using China’s Qinghai Province as a demonstration site. The province is the origin of three rivers, making it crucial for water retention and prime for tourism. The results indicate that there is a strong spatial interaction between the number of tourism attractions and water retention. The southern Qinghai region’s natural resources are protected by the Sanjiangyuan (three rivers headwater) National Park. From 2010–2014, tourists in the Sanjiangyuan region spent more money than those in the northern Qinghai region, which has accelerated the development of tourism infrastructures. The Sanjiangyuan region may face the unexpected degradation of its natural habitats due to rapid tourism development. Our findings suggest that new management plans are needed to minimize the negative impacts from the demands of distant tourists, and preserve the region that supports both the environment and the economy.
Highlights
The challenges of managing multiple ecosystem services (ES) include determining the complex interactions between ES supply and demand in the context of coupled human and natural systems [1,2,3]
In Qinghai Province, the total population increased by 21%, and the rural population decreased by 12%
With the general conceptual model, this study investigated the complex interrelationships of nature-based tourism demand with multiple ES supplies as well as the environment and economy in Qinghai Province
Summary
The challenges of managing multiple ecosystem services (ES) include determining the complex interactions between ES supply and demand in the context of coupled human and natural systems [1,2,3]. The increasing separation between where ES are needed and from where they are supplied makes managing multiple ES difficult [7,8]. Increasing ES demand across regions may accelerate ES flows, but damage the supply areas’ basic ability to provide those resources [9]. A holistic approach is necessary to investigate complex interconnections between the ES supply and demand areas and integrate human and natural systems using the framework of telecoupling (socioeconomic and environmental interactions over distances) [10]
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