Microwave remote sensing for agricultural drought monitoring: Recent developments and challenges

Vreugdenhil, Mariëtte; Greimeister-Pfeil, Isabella; Preimesberger, Wolfgang; Camici, Stefania; Dorigo, Wouter; Enenkel, Markus; Schalie, Robin van der; Steele‐Dunne, Susan; Wagner, Wolfgang

doi:10.3389/frwa.2022.1045451

Cited by 17 publications

(10 citation statements)

References 130 publications

(189 reference statements)

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“…The results clearly indicate that microwave and radar technology hold significant potential for monitoring water stress in forests. Notably, active remote sensing systems, which have already been proven effective in agricultural drought monitoring, were extensively reviewed by Vreugdenhil et al [171]. The advancements and challenges associated with these technologies in the agricultural sector highlight their promising prospects for similar applications in forestry.…”

Section: Change In Applications Over Timementioning

confidence: 99%

Application of Remote Sensing in Detecting and Monitoring Water Stress in Forests

Harper

Dell

2023

Remote Sensing

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In the context of climate change, the occurrence of water stress in forest ecosystems, which are solely dependent on precipitation, has exhibited a rising trend, even among species that are typically regarded as drought-tolerant. Remote sensing techniques offer an efficient, comprehensive, and timely approach for monitoring forests at local and regional scales. These techniques also enable the development of diverse indicators of plant water status, which can play a critical role in evaluating forest water stress. This review aims to provide an overview of remote sensing applications for monitoring water stress in forests and reveal the potential of remote sensing and geographic information system applications in monitoring water stress for effective forest resource management. It examines the principles and significance of utilizing remote sensing technologies to detect forest stress caused by water deficit. In addition, by a quantitative assessment of remote sensing applications of studies in refereed publications, the review highlights the overall trends and the value of the widely used approach of utilizing visible and near-infrared reflectance data from satellite imagery, in conjunction with classical vegetation indices. Promising areas for future research include the utilization of more adaptable platforms and higher-resolution spectral data, the development of novel remote sensing indices with enhanced sensitivity to forest water stress, and the implementation of modelling techniques for early detection and prediction of stress.

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Section: Change In Applications Over Timementioning

confidence: 99%

Application of Remote Sensing in Detecting and Monitoring Water Stress in Forests

Harper

Dell

2023

Remote Sensing

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“…Collecting these additional data and, therefore, the possibility of comprehensive modeling of the crop development process during the growing season is possible with the use of RS. In the literature, there are many examples of effective application of RS, not only in drought monitoring [30,64,65], but also in monitoring other factors responsible for crop yield losses, such as agricultural practices [66], climatic conditions [67], and economic conditions [68]. However, the use of RS in the administrative monitoring system entails further challenges.…”

Section: Discussionmentioning

confidence: 99%

Exploring the Potential Use of Sentinel-1 and 2 Satellite Imagery for Monitoring Winter Wheat Growth under Agricultural Drought Conditions in North-Western Poland

Jędrejek,

Pudełko

2023

Agriculture

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This paper presents analyses of the potential use of Sentinel-1 (S-1) and Sentinel-2 (S-2) imagery to generate models of winter wheat growth under agricultural drought vs. normal conditions identified based on potential yield losses calculated in the Agricultural Drought Monitoring System (ADMS). The analyses carried out showed the sensitivity of satellite images to agricultural drought conditions determined in ADMS. The study was conducted in a large region, the West Pomeranian Voivodeship (NUTS PL42), and the analysis covered about 22,935 polygons with winter wheat production that constituted a total area of about 108,000 ha in the period from the 1st of April to the 1st of July 2021. For S-1 data, VH and VV backscatter and the VH/VV ratio were calculated, and for S-2 data, NDVI and NDWI indices were calculated, which were used to build models of winter wheat growth under water stress and in normal conditions. The obtained results presented in this work include: (i) Development of a test version of a model describing the winter wheat crop’s growth, with a preliminary assessment showing the potential for recognizing water shortage effects; and (ii) identification of promising indicators of water scarcity for crops, calculated based on S-1 and S-2 images, that could be recommended for application in remote sensing (RS) of drought effects as complementary multispectral and radar observations. The results obtained in this work also gave many clues regarding the direction and method of including satellite remote sensing in national monitoring programmes, which involves operations on many types of big data sets.

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“…Based on a literature review, microwave sensing is primarily used to investigate soil moisture content 32,33 and assess droughts. 34 There were no studies that used microwave sensors to determine nutrients or to determine other physicochemical parameters. Despite being ideal for long-term, large-scale soil moisture content measurements, satellite-based remote sensing has coarse spatial and temporal resolutions and is limited to shallow penetration depths.…”

Section: Venkadesh Et Almentioning

confidence: 99%

Advanced Multi-functional Sensors for In-situ Soil Parameters for Sustainable Agriculture

Venkadesh,

Kamat,

Bhansali

et al. 2023

Electrochem. Soc. Interface

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“The agronomic practices of agricultural science in recent years have become more accurate, precise, and data-driven than ever before. The stable performance of an intelligent and sustainable system relies on precise monitoring that provides critical information for constructing site-specific information for evaluating soil parameters, environmental conditions, and plant growth. By implementing advanced systems like sensors, agriculture can become technology driven, more productive, and more efficient by optimizing fertilizer application and minimizing environmental impacts. As a result, multi-functional sensors are extensively used and increasingly in demand to provide accurate information to farmers, ensuring agricultural strategies tailored to specific needs and enhancing yields.”

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Microwave remote sensing for agricultural drought monitoring: Recent developments and challenges

Cited by 17 publications

References 130 publications

Application of Remote Sensing in Detecting and Monitoring Water Stress in Forests

Application of Remote Sensing in Detecting and Monitoring Water Stress in Forests

Exploring the Potential Use of Sentinel-1 and 2 Satellite Imagery for Monitoring Winter Wheat Growth under Agricultural Drought Conditions in North-Western Poland

Advanced Multi-functional Sensors for In-situ Soil Parameters for Sustainable Agriculture

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