Spatio-temporal dynamics of forest ecosystems revealed by the LiDAR-based characterization of medieval field systems (Vosges Mountains, France)

IF 3.3 2区 地球科学 Q2 ENVIRONMENTAL SCIENCES
Benjamin Keller , Pierre Alexis Herrault , Dominique Schwartz , Gilles Rixhon , Damien Ertlen
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引用次数: 2

Abstract

Relics of past agricultural practices, former field systems have strongly imprinted many modern landscapes and have thus significantly disrupted forest ecosystems over the last centuries. Former field systems in the Hautes-Vosges mountain range (north-eastern France) date primarily to the medieval period (6–15th century C.E.) and consist of parcelled or linear structures on hillslopes and valley floors. These residual features fall into three categories: ridge and furrow, terraced slopes, and stone walls. LiDAR (light detection and ranging) can detect microrelief features, such as the topographical imprints of these field systems over extended areas, and thereby establish a new temporal baseline for reconstructing forest changes over relatively long timescales, i.e., before the first historical topographic maps. Here, we digitize former field systems in the south-eastern Vosges from a high-resolution LiDAR-derived DEM to assess their spatial distribution at the mountain-range scale (1185 km²) and in relation to topography. Former field systems cover approx. 6.6 % of the study area (78.5 km2), with terraced slopes (55.5 km2) and stone walls (20.6 km2) covering a greater extent than ridge and furrow (2.4 km2). Former field systems are preferentially located on south-facing slopes above an 800 m a.s.l. threshold; this pattern indicates systematic past agricultural practices across the entire region. We then compare the LiDAR-derived spatial features with a 19th-century map of France and a modern regional land-cover database to derive the spatio-temporal trajectories of landscapes. We observe that former field systems were progressively, but unevenly, abandoned and transformed into grasslands or forests. This mid-19th century abandonment of agricultural fields and their conversion to grassland and forest is highly dependent on slope and elevation (grassland and forest: 18–19° and 610–620 m). These values differ from those associated with agricultural sites that remain under cultivation today (approx. 16° and 550 m). Finally, we demonstrate the relevance of integrating former field systems for characterizing areas of ancient forest. Less than 2 % of the area mapped as forest in the 19th century was cultivated between the 6th and 15th century. Most importantly, our approach quantifies disturbed and undisturbed ancient forest areas at the mountain-range scale. While this study opens new perspectives for accurately assessing the age of forest ecosystems, it also reveals an evolutionary pattern of land-use change in the Hautes-Vosges that is similar to that observed in other European mountainous regions.

基于激光雷达的中世纪野外系统表征揭示了森林生态系统的时空动力学(法国沃斯山脉)
过去农业实践的遗迹和以前的田间系统在许多现代景观中留下了深刻的印记,因此在过去几个世纪中严重破坏了森林生态系统。上孚日山脉(法国东北部)以前的农田系统主要可以追溯到中世纪(公元6 - 15世纪),由山坡和谷底上的包裹状或线状结构组成。这些残余物分为三大类:脊沟、梯田坡和石墙。激光雷达(光探测和测距)可以探测微地形特征,例如这些野外系统在扩展区域上的地形印记,从而建立一个新的时间基线,用于在相对较长的时间尺度上重建森林变化,即在第一张历史地形图之前。在这里,我们利用高分辨率激光雷达衍生的DEM对孚日山脉东南部的前野外系统进行数字化,以评估其在山脉尺度(1185 km²)和地形上的空间分布。以前的现场系统覆盖大约。6.6%的研究面积(78.5平方公里),其中梯田坡地(55.5平方公里)和石墙(20.6平方公里)的覆盖范围大于脊沟(2.4平方公里)。以前的油田系统优先位于海拔800米以上的朝南斜坡上;这种模式表明整个地区过去有系统的农业实践。然后,我们将激光雷达获得的空间特征与19世纪的法国地图和现代区域土地覆盖数据库进行比较,得出景观的时空轨迹。我们观察到,以前的田间系统被逐步但不均匀地抛弃,向草原或森林转变。19世纪中期农业用地的放弃及其向草地和森林的转变高度依赖于坡度和海拔(草地和森林:18-19°和610-620 m)。这些值与今天仍在耕作的农业用地相关的值不同。16°和550 m)。最后,我们证明了整合以前的野外系统对表征古森林区域的相关性。在19世纪的地图上,只有不到2%的森林是在6世纪到15世纪之间开垦的。最重要的是,我们的方法量化了山脉尺度上受干扰和未受干扰的古森林面积。虽然这项研究为准确评估森林生态系统的年龄开辟了新的视角,但它也揭示了上孚日地区土地利用变化的进化模式,这种模式与在欧洲其他山区观察到的相似。
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来源期刊
Anthropocene
Anthropocene Earth and Planetary Sciences-Earth and Planetary Sciences (miscellaneous)
CiteScore
6.30
自引率
0.00%
发文量
27
审稿时长
102 days
期刊介绍: Anthropocene is an interdisciplinary journal that publishes peer-reviewed works addressing the nature, scale, and extent of interactions that people have with Earth processes and systems. The scope of the journal includes the significance of human activities in altering Earth’s landscapes, oceans, the atmosphere, cryosphere, and ecosystems over a range of time and space scales - from global phenomena over geologic eras to single isolated events - including the linkages, couplings, and feedbacks among physical, chemical, and biological components of Earth systems. The journal also addresses how such alterations can have profound effects on, and implications for, human society. As the scale and pace of human interactions with Earth systems have intensified in recent decades, understanding human-induced alterations in the past and present is critical to our ability to anticipate, mitigate, and adapt to changes in the future. The journal aims to provide a venue to focus research findings, discussions, and debates toward advancing predictive understanding of human interactions with Earth systems - one of the grand challenges of our time.
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