利用机器学习技术在谷歌地球引擎中建立植被碳储存分析的地理空间模型

IF 2.7 4区 地球科学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Earth Science Informatics Pub Date : 2024-06-27 DOI:10.1007/s12145-024-01372-w
Arpitha M, S A Ahmed, Harishnaika N
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引用次数: 0

摘要

在过去几年中,森林生态系统的碳储存能力受到了土地利用和土地覆被 (LULC) 以及气候变化的严重影响。因此,了解这些致变因素如何影响碳封存(CS)至关重要。由于碳储量监测方法数量有限,遥感数据周期较短,因此很难持续分析大面积的碳储量。利用 AVHRR(高级甚高分辨率辐射计)和 MODIS(中分辨率成像光谱辐射计)遥感数据可以解决这些问题。本研究的主要目标是测量 2003 年至 2021 年卡纳塔克邦植被和非植被地形的碳储存时空模式。为了评估潜在的土地利用和土地覆盖情景的影响,我们的工作使用空间地图来估算各种土地利用模式的碳螯合储存量。评估土地利用和土地覆被变化对碳储存的可用性和价值的时空影响。本研究以整个卡纳塔克邦为研究区域,利用 GEE(谷歌地球引擎)等在线平台计算碳储量,使用 GPP(初级生产力总值)和 NPP(初级生产力净值)作为重要指标,使用决策树(DT)机器学习技术评估植被生产力。皮尔逊相关系数、标准化系数和均方根误差(RMSE)等统计模型用于评估模型在不同指数和碳储存方面的表现。研究结果表明,乌塔拉-卡纳达地区的碳储量在 250 克立方厘米-2 到 300 克立方厘米-2 之间,与该州其他地区相比相对较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The geospatial modelling of vegetation carbon storage analysis in Google earth engine using machine learning techniques

Over the past few years, forest ecosystems’ ability to store carbon has been significantly impacted by Land use and Land cover (LULC), and climate change. Thus, it is crucial to understand how these change-causing factors impact carbon sequestration (CS). Due to a limited number of carbon storage monitoring methods and the shorter period of remote sensing data, it is difficult to continually analyze carbon storage in large areas. These issues can be solved by using AVHRR (Advanced Very High-Resolution Radiometer) and MODIS (Moderate Resolution Imaging Spector radiometer) remote sensing data. The main objective of this research is to measure the spatial and temporal patterns of carbon storage across the state of Karnataka’s vegetative and non-vegetated terrains, between 2003 and 2021. To assess the effects of potential land use and land cover scenarios, our work uses spatial maps to estimate the storage of carbon sequestration from various land use patterns. To assess the spatio-temporal effects of land use and land cover (LULC) change on the availability and value of carbon storage. This research focuses on the entire Karnataka state as a study region to compute carbon storage utilizing online platforms like GEE (Google Earth Engine) using GPP (Gross Primary Productivity), and NPP (Net Primary Productivity) is an important measure to evaluate vegetation productivity using Decision Tree (DT) machine learning techniques. Statistical models like Pearson’s correlation coefficient, standardized coefficients, and Root Mean Square Error (RMSE) methods are used for the model’s performance with different indices and carbon storage. The findings show the Uttara Kannada district contains between 250 gCm − 2 and 300 gCm − 2 of carbon storage, which is relatively significant as compared to the other parts of the districts in the state.

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来源期刊
Earth Science Informatics
Earth Science Informatics COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
4.60
自引率
3.60%
发文量
157
审稿时长
4.3 months
期刊介绍: The Earth Science Informatics [ESIN] journal aims at rapid publication of high-quality, current, cutting-edge, and provocative scientific work in the area of Earth Science Informatics as it relates to Earth systems science and space science. This includes articles on the application of formal and computational methods, computational Earth science, spatial and temporal analyses, and all aspects of computer applications to the acquisition, storage, processing, interchange, and visualization of data and information about the materials, properties, processes, features, and phenomena that occur at all scales and locations in the Earth system’s five components (atmosphere, hydrosphere, geosphere, biosphere, cryosphere) and in space (see "About this journal" for more detail). The quarterly journal publishes research, methodology, and software articles, as well as editorials, comments, and book and software reviews. Review articles of relevant findings, topics, and methodologies are also considered.
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