Assessing the Reliability of Thermal and Optical Imaging Techniques for Detecting Crop Water Status under Different Nitrogen Levels

Masseroni, Daniele; Ortuani, B.; Corti, M.; Gallina, P. Marino; Cocetta, Giacomo; Ferrante, António; Facchi, A.

doi:10.3390/su9091548

Cited by 24 publications

(9 citation statements)

References 48 publications

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“…Instabilities (e.g., caused by climatic factors or pests) should be detected as early as possible to initiate corrections in the nutrient supply or in other growth conditions. Sensitive detection systems for nutrient disorders in the field can facilitate this task, and are therefore, highly desirable [36].…”

Section: Discussionmentioning

confidence: 99%

Plant Nutrient Dynamics in Stressful Environments: Needs Interfere with Burdens

Feller

Vassileva

2018

Agriculture

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Section: Discussionmentioning

confidence: 99%

Plant Nutrient Dynamics in Stressful Environments: Needs Interfere with Burdens

Feller

Vassileva

2018

Agriculture

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“…This can be helpful in site-specific management of irrigation water, as well as weedicide, pesticide and other chemicals [106][107][108]. Various indices derived from thermal and multispectral images, such as crop water stress index (CWSI), perpendicular vegetation index (PVI), normalized difference vegetation index (NDVI) and photochemical reflectance index (PRI), can predict soil or plant water status and drought stress as a basis for site-specific water management [109,110]. Use of digital infrared thermography to measure canopy temperature can help producers to detect early crop water stress and avoid yield declines as well as saving water with site-specific irrigation management and irrigation scheduling [111,112].…”

Section: Remote and Proximal Sensingmentioning

confidence: 99%

Agronomic Basis and Strategies for Precision Water Management: A Review

2019

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Agriculture faces the challenge of feeding a growing population with limited or depleting fresh water resources. Advances in irrigation systems and technologies allow site-specific application of irrigation water within the field to improve water use efficiency or reduce water usage for sustainable crop production, especially in arid and semi-arid regions. This paper discusses recent development of variable-rate irrigation (VRI) technologies, data and information for VRI application, and impacts of VRI, including profitability using this technology, with a focus on agronomic factors in precision water management. The development in sprinkler systems enabled irrigation application with greater precision at the scale of individual nozzle control. Further research is required to evaluate VRI prescription maps integrating different soil and crop characteristics in different environments. On-farm trials and whole-field studies are needed to provide support information for practical VRI applications. Future research also needs to address the adjustment of the spatial distribution of prescription zones in response to temporal variability in soil water status and crop growing conditions, which can be evaluated by incorporating remote and proximal sensing data. Comprehensive decision support tools are required to help the user decide where to apply how much irrigation water at different crop growth stages to optimize water use and crop production based on the regional climate conditions and cropping systems.

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“…Water stress can reduce and remove specific spectral properties of the crop through e.g. lowering of the red light absorbance [27]. Masseroni et al investigated the reliability of thermal and optical indices derived from imaging techniques for detecting the crop water status.…”

Section: Geospatial Technology In Agriculturementioning

confidence: 99%

Latest Developments in Sustainable Water Management

Halkijević¹,

Bekić²,

Lončar³

et al. 2019

Future Trends in Civil Engineering

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An overview of new and upcoming approaches (technologies, techniques, methodologies, tools, etc.) in various aspects and areas of water management is given in the paper. A brief account of the application and limitations of remote sensing techniques in monitoring meteorological and hydrological data, in efficient irrigation planning, and in improvement of water use in agriculture, is also provided. Several new water treatment technologies with a large-scale application potential are presented, and the use of numerical modelling in water treatment, 'green' infrastructure, and coastal engineering planning and design, is outlined. Such novel approaches are increasingly used in various water management activities, with an ultimate goal of achieving water management sustainability, which will surely contribute to the longevity of mankind.

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Assessing the Reliability of Thermal and Optical Imaging Techniques for Detecting Crop Water Status under Different Nitrogen Levels

Cited by 24 publications

References 48 publications

Plant Nutrient Dynamics in Stressful Environments: Needs Interfere with Burdens

Plant Nutrient Dynamics in Stressful Environments: Needs Interfere with Burdens

Agronomic Basis and Strategies for Precision Water Management: A Review

Latest Developments in Sustainable Water Management

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