The geomorphic work of the European mole (Talpa europaea): Long-term monitoring of molehills using structure-from-motion photogrammetry

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Timothy Baxter, Sam Woor, Martin Coombes, Heather Viles
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Abstract

Moles—small insectivorous mammals of the family Talpidae—are widespread across the Northern Hemisphere. These subterranean mammals are easily detected through the mounds, or molehills, they construct as surface bioproducts of tunnel systems excavated underground. The dense aggregation of these bioconstructions in a range of environments (e.g., floodplains, woodland, coastal dunes and upland regions) indicates that moles may play an important role in sediment systems. However, compared with other fossorial mammals (e.g., gophers and rabbits), the impact of moles as direct and indirect biogeomorphic agents is poorly understood. Furthermore, little is known about how molehills develop and degrade over time or how long they persist as landscape features. By examining molehills created by the European mole (Talpa europaea) over 4 months on a floodplain in Oxfordshire, UK, we provide a quantitative assessment of how these landforms evolve over time and space. Through the creation of high-resolution digital elevation models (DEMs) using structure-from-motion (SfM) photogrammetry, we derive a variety of metrics describing molehill morphology and produce a detailed record of how molehills change at weekly time intervals. In addition, measurements of molehill volume are used to estimate the excavation rate of moles over a month. Findings show that (i) molehills are dynamic landforms that change in size and shape in response to phases of construction, collapse, erosion and rebuilding; (ii) rates of degradation are influenced by soil characteristics and seasonal weather conditions; (iii) molehills can persist as landscape features for several months; and (iv) moles are capable of moving a substantial volume of sediment in highly active areas (3.89 m3 ha−1 month−1). Future work is now needed to determine the geomorphic impact of T. europaea over larger spatial scales (e.g., river catchments) and longer timescales (e.g., years–decades) to determine its importance in relation to other bioturbators and within the wider sediment system.

Abstract Image

鼹鼠是 Talpidae 科的小型食虫哺乳动物,广泛分布于北半球。这些地下哺乳动物很容易通过它们在地下开凿的隧道系统中建造的土丘或鼹鼠丘被发现。这些生物构造在各种环境(如洪泛平原、林地、沿海沙丘和高地地区)中密集聚集,表明鼹鼠可能在沉积物系统中扮演着重要角色。然而,与其他有化石的哺乳动物(如地鼠和兔子)相比,人们对鼹鼠作为直接和间接生物地貌媒介的影响知之甚少。此外,人们对鼹鼠丘随着时间的推移是如何发展和退化的,以及鼹鼠丘作为地貌特征会持续多久也知之甚少。通过研究欧洲鼹鼠(Talpa europaea)在英国牛津郡洪泛平原上历时 4 个月形成的鼹鼠丘,我们对这些地貌如何随时间和空间演变进行了定量评估。通过使用运动结构摄影测量法(SfM)创建高分辨率数字高程模型(DEM),我们得出了描述鼹鼠丘形态的各种指标,并详细记录了鼹鼠丘在每周时间间隔内的变化情况。此外,鼹鼠山体积的测量结果还用于估算一个月内鼹鼠的挖掘率。研究结果表明:(i) 摩尔丘是一种动态地貌,其大小和形状会随着建造、崩塌、侵蚀和重建等阶段的变化而变化;(ii) 退化速度受土壤特性和季节性天气条件的影响;(iii) 摩尔丘作为地貌特征可持续存在数月;(iv) 摩尔丘能够在高度活跃的地区移动大量沉积物(3.89 立方米/公顷/月-1)。现在需要在更大的空间尺度(如河流集水区)和更长的时间尺度(如数年至数十年)上确定鼹鼠对地貌的影响,以确定其与其他生物扰动因素以及在更广泛的沉积物系统中的重要性。
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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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