Mapping winter wheat crop traits dynamic change and growth performance for variable rate application using Sentinel-1 and Sentinel-2
Mapping winter wheat crop traits dynamic change and growth performance for variable rate application using Sentinel-1 and Sentinel-2
Site specific crop management for variable rate application is extensively recognized as a method for distributing agricultural input unevenly across a field, tailored to the diverse requirement of different areas. From the previous study, this approach proven to reduce agricultural input expenses by 10 % without impacting yield and ensure environmental sustainability. This study presents a new approach to delineate management zones for precision agriculture using crop biophysical property variability assessment within winter wheat fields. A multivariate random forest framework was developed to estimate winter wheat’s biophysical properties within fields from surface reflectance and backscatters of Sentinel-1 and Sentinel-2. Combining Sentinel-1 and Sentinel-2 data resulted in more precise estimation of the green area index (R²=0.98), aboveground dry biomass (R²=0.90), plant height (R²=0.94), and leaf nitrogen content (R²=0.78). Sentinel-2 alone was particularly effective in estimating shoot density (R²=0.94). These estimates were then used to create management zones for precision agriculture, classified based on agronomic performance benchmarks. The fuzzy c-mean clustering algorithm helped generate homogeneous management zones, considering the biophysical variations within fields.The ultimate goal is to integrate these biophysical property maps and management zones into crop management workflows. This integration will assist farmers in recognizing field variability and understanding its causes. Moreover, the spatial distribution of these zones supports variable rate application, guiding farmers towards more efficient, profitable, and sustainable crop management practices.
Goh, Bing-Bing
6c1b543b-bdc7-4d85-b7cc-d9ed2c9fc4d3
Sattari, Sheida Z.
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Bleakley, Chris J.
b2409764-baf7-412b-a4fa-f29ed5bc3284
Holden, Nicholas M.
6c0e4712-7d44-498d-987d-4e43377d5837
23 August 2024
Goh, Bing-Bing
6c1b543b-bdc7-4d85-b7cc-d9ed2c9fc4d3
Sattari, Sheida Z.
c04f62fc-3b3c-4cf8-b09b-5e30eb5fab78
Bleakley, Chris J.
b2409764-baf7-412b-a4fa-f29ed5bc3284
Holden, Nicholas M.
6c0e4712-7d44-498d-987d-4e43377d5837
Goh, Bing-Bing, Sattari, Sheida Z., Bleakley, Chris J. and Holden, Nicholas M.
(2024)
Mapping winter wheat crop traits dynamic change and growth performance for variable rate application using Sentinel-1 and Sentinel-2.
Geomatica, 76 (2), [100018].
(doi:10.1016/j.geomat.2024.100018).
Abstract
Site specific crop management for variable rate application is extensively recognized as a method for distributing agricultural input unevenly across a field, tailored to the diverse requirement of different areas. From the previous study, this approach proven to reduce agricultural input expenses by 10 % without impacting yield and ensure environmental sustainability. This study presents a new approach to delineate management zones for precision agriculture using crop biophysical property variability assessment within winter wheat fields. A multivariate random forest framework was developed to estimate winter wheat’s biophysical properties within fields from surface reflectance and backscatters of Sentinel-1 and Sentinel-2. Combining Sentinel-1 and Sentinel-2 data resulted in more precise estimation of the green area index (R²=0.98), aboveground dry biomass (R²=0.90), plant height (R²=0.94), and leaf nitrogen content (R²=0.78). Sentinel-2 alone was particularly effective in estimating shoot density (R²=0.94). These estimates were then used to create management zones for precision agriculture, classified based on agronomic performance benchmarks. The fuzzy c-mean clustering algorithm helped generate homogeneous management zones, considering the biophysical variations within fields.The ultimate goal is to integrate these biophysical property maps and management zones into crop management workflows. This integration will assist farmers in recognizing field variability and understanding its causes. Moreover, the spatial distribution of these zones supports variable rate application, guiding farmers towards more efficient, profitable, and sustainable crop management practices.
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Accepted/In Press date: 10 August 2024
e-pub ahead of print date: 15 August 2024
Published date: 23 August 2024
Identifiers
Local EPrints ID: 493662
URI: http://eprints.soton.ac.uk/id/eprint/493662
ISSN: 1195-1036
PURE UUID: 97503927-b550-4d85-bd86-68d802039cfc
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Date deposited: 10 Sep 2024 16:37
Last modified: 11 Sep 2024 02:39
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Contributors
Author:
Bing-Bing Goh
Author:
Sheida Z. Sattari
Author:
Chris J. Bleakley
Author:
Nicholas M. Holden
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