Recent Advances of Hyperspectral Imaging Technology and Applications in Agriculture

Lu, Bing; Dao, Phuong D.; Liu, Jiangui; He, Yuhong; Shang, Jiali

doi:10.3390/rs12162659

Cited by 544 publications

(310 citation statements)

References 205 publications

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“…In the forward mode, RTMs simulate the vegetation spectrum based on known spectral signatures of vegetation biochemical and biophysical properties. Likewise, RTMs can retrieve vegetation properties from reflectance data in the inverse mode [72][73][74]. Indeed, RTM inversion has been successfully applied to monitor the changes in plant traits and reflectance upon drought [70].…”

Section: Discussionmentioning

confidence: 99%

A Review of Remote Sensing Challenges for Food Security with Respect to Salinity and Drought Threats

et al. 2020

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Drought and salinity stress are considered to be the two main factors limiting crop productivity. With climate change, these stresses are projected to increase, further exacerbating the risks to global food security. Consequently, to tackle this problem, better agricultural management is required on the basis of improved drought and salinity stress monitoring capabilities. Remote sensing makes it possible to monitor crop health at various spatiotemporal scales and extents. However, remote sensing has not yet been used to monitor both drought and salinity stresses simultaneously. The aim of this paper is to review the current ability of remote sensing to detect the impact of these stresses on vegetation indices (VIs) and crop trait responses. We found that VIs are insufficiently accurate (0.02 ≤ R2 ≤ 0.80) to characterize the crop health under drought and salinity stress. In contrast, we found that plant functional traits have a high potential to monitor the impacts of such stresses on crop health, as they are more in line with the vegetation processes. However, we also found that further investigations are needed to achieve this potential. Specifically, we found that the spectral signals concerning drought and salinity stress were inconsistent for the various crop traits. This inconsistency was present (a) between studies utilizing similar crops and (b) between investigations studying different crops. Moreover, the response signals for joint drought and salinity stress overlapped spectrally, thereby significantly limiting the application of remote sensing to monitor these separately. Therefore, to consistently monitor crop responses to drought and salinity, we need to resolve the current indeterminacy of the relationships between crop traits and spectrum and evaluate multiple traits simultaneously. Using radiative transfer models (RTMs) and multi-sensor frameworks allow monitoring multiple crop traits and may constitute a way forward toward evaluating drought and salinity impacts.

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Section: Discussionmentioning

confidence: 99%

A Review of Remote Sensing Challenges for Food Security with Respect to Salinity and Drought Threats

et al. 2020

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“…To the best of our knowledge, this is the first study that focuses exclusively on predicting the symptoms of plant and crop diseases before they appear in the field or in an early stage with mild and minor lesions. A brief review of 10 scientific works related to pest detection and prediction is provided in [26], while other review works were conducted for different domains [22] and sub-domains [27][28][29][30] belonging to the agriculture sector.…”

Section: Methodsmentioning

confidence: 99%

Forecasting Plant and Crop Disease: An Explorative Study on Current Algorithms

Fenu

Malloci

2021

BDCC

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Every year, plant diseases cause a significant loss of valuable food crops around the world. The plant and crop disease management practice implemented in order to mitigate damages have changed considerably. Today, through the application of new information and communication technologies, it is possible to predict the onset or change in the severity of diseases using modern big data analysis techniques. In this paper, we present an analysis and classification of research studies conducted over the past decade that forecast the onset of disease at a pre-symptomatic stage (i.e., symptoms not visible to the naked eye) or at an early stage. We examine the specific approaches and methods adopted, pre-processing techniques and data used, performance metrics, and expected results, highlighting the issues encountered. The results of the study reveal that this practice is still in its infancy and that many barriers need to be overcome.

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“…There are several imaging techniques, such as hyperspectral imaging and thermography, that potentially can be used for an indirect detection of abiotic stresses in plants (Bauer et al, 2019;Caballero et al, 2020). These techniques allow for fast imaging of broad field areas and identification of "problematic areas" (Baena et al, 2017;Lu et al, 2020). However, these methods do not always possess required specificity.…”

Section: Introductionmentioning

confidence: 99%

Raman-Based Diagnostics of Biotic and Abiotic Stresses in Plants. A Review

Payne

Kurouski

2021

Front. Plant Sci.

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Digital farming is a novel agricultural philosophy that aims to maximize a crop yield with the minimal environmental impact. Digital farming requires the development of technologies that can work directly in the field providing information about a plant health. Raman spectroscopy (RS) is an emerging analytical technique that can be used for non-invasive, non-destructive, and confirmatory diagnostics of diseases, as well as the nutrient deficiencies in plants. RS is also capable of probing nutritional content of grains, as well as highly accurate identification plant species and their varieties. This allows for Raman-based phenotyping and digital selection of plants. These pieces of evidence suggest that RS can be used for chemical-free surveillance of plant health directly in the field. High selectivity and specificity of this technique show that RS may transform the agriculture in the US. This review critically discusses the most recent research articles that demonstrate the use of RS in diagnostics of abiotic and abiotic stresses in plants, as well as the identification of plant species and their nutritional analysis.

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Recent Advances of Hyperspectral Imaging Technology and Applications in Agriculture

Cited by 544 publications

References 205 publications

A Review of Remote Sensing Challenges for Food Security with Respect to Salinity and Drought Threats

A Review of Remote Sensing Challenges for Food Security with Respect to Salinity and Drought Threats

Forecasting Plant and Crop Disease: An Explorative Study on Current Algorithms

Raman-Based Diagnostics of Biotic and Abiotic Stresses in Plants. A Review

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