Albedo on a glacial foreland at ground level and landscape scale driven by vegetation-substrate patterns

IF 0.6 Q4 ENVIRONMENTAL SCIENCES

European journal of environmental sciences Pub Date : 2023-12-17 DOI:10.14712/23361964.2023.8

Lawrence Tanner, Genevieve Kikukawa, Kaylyn Weits

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引用次数: 0

Abstract

Recent anthropogenic climate change has caused both glacial retreat and increased vegetative growth on Arctic and subarctic tundra landscapes resulting in changing albedo and energy budgets. Glacial forelands are topographically and ecologically heterogeneous landscapes comprising ice-contact and outwash deposits subject to primary succession. The most recent moraines on the foreland of the Skaftafellsjökull in southern Iceland are mostly unvegetated, but vegetation cover increases with the age in a general sense. Vegetated outwash channel terraces occur between the moraines, and a broad vegetated outwash plain occurs distal to the oldest moraine. Variations in albedo were measured at ground level to determine the specific role of vegetation types and varying substrates. Albedo and coverage by major plant groups were measured along transects established on moraines ranging in age from 20 to 130 years and the terrace of one outwash channel and three locations on the outwash plain. Total vegetation cover and coverage by mosses increases on the glacial moraines largely as a function of time but is subject to strong aspect effects. Total vegetation cover and moss cover are highest on outwash deposits, possibly due to a sheltered aspect and greater uniformity of the outwash surface. Measured albedo exhibits a modest positive correlation with total vegetation cover and a modest negative correlation with rock and soil exposure. The strongest positive correlation was found between albedo and moss cover. The differences in brightness between moraines and outwash deposits are evident visually at the landscape scale on satellite photographs and quantifiable by image-processing software.

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由植被-基质模式驱动的冰川前陆地面和地貌尺度上的反照率

最近的人为气候变化造成了冰川退缩，北极和亚北极苔原地貌的植被生长增加，导致反照率和能量预算发生变化。冰川前陆在地形和生态上都是异质景观，由冰雪接触沉积物和冲刷沉积物组成，受到原始演替的影响。冰岛南部 Skaftafellsjökull 前陆的最新冰碛大多没有植被，但一般来说，植被覆盖率会随着年龄的增长而增加。在冰碛之间有植被覆盖的冲积河道阶地，在最古老的冰碛远端有广阔的植被覆盖的冲积平原。在地面测量了反照率的变化，以确定植被类型和不同基质的具体作用。在年龄为 20 至 130 年的冰碛、一条冲积河道的阶地和冲积平原上的三个地点，沿横断面测量了反照率和主要植物群的覆盖率。冰碛区的植被总覆盖率和苔藓覆盖率主要随时间的推移而增加，但受地势影响较大。外冲积层上的植被总覆盖率和苔藓覆盖率最高，这可能是由于外冲积层地势较高，表面较均匀。测量到的反照率与植被总覆盖度呈适度正相关，与岩石和土壤裸露度呈适度负相关。反照率与苔藓覆盖之间的正相关性最强。冰碛与冲积层之间的亮度差异在卫星照片的地貌尺度上非常明显，并可通过图像处理软件进行量化。

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来源期刊

European journal of environmental sciences ENVIRONMENTAL SCIENCES-

CiteScore

1.50

自引率

12.50%

发文量

审稿时长

25 weeks

期刊介绍： The European Journal of Environmental Sciences offers a mixture of original refereed research papers, which bring you some of the most exciting developments in environmental sciences in the broadest sense, often with an inter- or trans-disciplinary perspective, focused on the European problems. The journal also includes critical reviews on topical issues, and overviews of the status of environmental protection in particular regions / countries. The journal covers a broad range of topics, including direct or indirect interactions between abiotic or biotic components of the environment, interactions of environment with human society, etc. The journal is published twice a year (June, December).