Elevational distribution of forests and its spatiotemporal dynamics in subtropical China from 2000 to 2019

IF 6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Science China Earth Sciences Pub Date : 2024-07-08 DOI:10.1007/s11430-023-1345-9
Zhencan Zheng, Liuwen Zhuang, Guofang Miao, Han Liu, Zhiqiang Cheng, Wenyu Li, Rong Shang, Peng Gong, Jing Ming Chen
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Abstract

The subtropical region of China possesses abundant forest resources and features a mountainous terrain. Under the implementation of policies such as natural forest protection, the Grain for Green Project, and other initiatives since the beginning of the 21st century, coupled with climate change, the forest resources in this region have undergone significant changes compared to historical periods. In addition, forest resources distributing mainly in mountainous areas also implies that these changes may vary significantly with elevation. To explore the spatiotemporal dynamics of forest distribution in subtropical China since 2000, especially the trend of changes with elevation, we analyzed the data from two land cover products focusing on forest cover and forest types. We used a hierarchical approach, in which coarse-classification forest cover data with relatively small uncertainties impose constraints on forest type data with larger uncertainties, to achieve a reasonable balance between obtaining more details and reducing data uncertainty. We first divided the forest cover data into ‘unchanged’ and ‘changed’ categories. With the constraints by the forest cover results, we further analyzed the ‘unchanged’ and ‘changed’ forest types. The results indicated that, since the implementation of ecological engineering and management policies, 54% of the area in the subtropical region had maintained unchanged forest cover attributes over the past 20 years, which implied the good state of ecological environment. The results also showed that dynamic conversions existed in the long term between forests and lands for essential production needs like croplands. The elevational variations of forest cover suggested that the dominant changes came from the conversion between forests and croplands in low-elevation regions below 700 m, the conversion between forests and shrublands in mid-elevation regions of 700–1500 m, and the conversion between forests and grasslands in high-elevation regions above 2000 m. In the regions with unchanged forest cover, 96% exhibited unchanged forest types as well. Evergreen broad-leaved forests (EBF) were most widely distributed below 1700 m, while evergreen needle-leaved forests (ENF) dominated above 1700 m. There was still a large area of ENF and EBF undergoing dynamic conversions from/to transitional forest types such as mosaic of tree, shrub, and herbaceous cover (T-S-H) and mosaic of natural vegetation and cropland (NV-CRO). ENF almost unidirectionally transformed into T-S-H in low-elevation regions below 1000 m, and transformed from NV-CRO in mid- and high-elevation regions above 1000 m. EBF experienced an areal decrease and transformed into T-S-H in low-elevation regions, but the areal increase in mid- to low-elevation regions mainly transformed from NV-CRO. These variations with elevation may involve the impacts of specific human activities and climate change, and will provide a vertical dimension of information and perspectives for an in-depth exploration of the evolving ecosystem services of forest resources in subtropical China.

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2000 至 2019 年中国亚热带森林高程分布及其时空动态变化
中国亚热带地区拥有丰富的森林资源,且多山。进入 21 世纪以来,随着天然林保护、绿色工程等政策的实施,加之气候变化,该地区的森林资源与历史时期相比发生了显著变化。此外,森林资源主要分布在山区,这也意味着这些变化会随着海拔高度的变化而产生显著差异。为了探索 2000 年以来中国亚热带地区森林分布的时空动态变化,特别是随海拔高度变化的趋势,我们分析了以森林覆盖和森林类型为重点的两种土地覆被产品的数据。我们采用了分层方法,即不确定性相对较小的粗分类森林覆盖数据对不确定性较大的森林类型数据进行约束,从而在获取更多细节和降低数据不确定性之间实现合理平衡。我们首先将森林覆盖数据分为 "未改变 "和 "已改变 "两类。在森林覆盖结果的约束下,我们进一步分析了 "未改变 "和 "已改变 "的森林类型。结果表明,自生态工程和管理政策实施以来,亚热带地区 54% 的面积在过去 20 年中保持了不变的森林覆盖属性,这意味着生态环境状况良好。研究结果还显示,长期以来,森林与耕地等基本生产用地之间存在动态转换。森林覆盖率的海拔变化表明,主要变化来自海拔 700 米以下低海拔地区森林与耕地之间的转换、海拔 700-1500 米中海拔地区森林与灌木林之间的转换以及海拔 2000 米以上高海拔地区森林与草地之间的转换。常绿阔叶林(EBF)在海拔 1700 米以下分布最广,而常绿针叶林(ENF)则在海拔 1700 米以上占主导地位。仍有大面积的常绿阔叶林和常绿针叶林正在经历从乔木、灌木和草本植被(T-S-H)镶嵌型和天然植被与耕地(NV-CRO)镶嵌型等过渡性森林类型的动态转化。在海拔 1000 米以下的低海拔地区,ENF 几乎单向转变为 T-S-H,而在海拔 1000 米以上的中高海拔地区,ENF 则从 NV-CRO 转变而来;在低海拔地区,EBF 面积减少并转变为 T-S-H,但在中低海拔地区,EBF 面积增加主要是从 NV-CRO 转变而来。这些随海拔高度的变化可能涉及特定人类活动和气候变化的影响,将为深入探讨中国亚热带森林资源生态系统服务功能的演变提供纵向维度的信息和视角。
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来源期刊
Science China Earth Sciences
Science China Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
9.60
自引率
5.30%
发文量
135
审稿时长
3-8 weeks
期刊介绍: Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.
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