Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018

Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018

Abstract For over 25 yr, sensor‐based Normalized Difference Vegetative Index (NDVI) data has been collected from both satellite imagery and near‐plant (3‐m) readings. Because calibrated NDVI data coming from active sensors is still relatively new, limited research has returned to evaluate databases...

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Main Authors: Bruno Figueiredo, Jagmandeep Dhillon, Elizabeth Eickhoff, Eva Nambi, William Raun
Format: Article
Language:English
Published: Wiley 2020-01-01
Series:Agrosystems, Geosciences & Environment
Online Access:https://doi.org/10.1002/agg2.20013
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spelling doaj-294d5b8f58f246fd8ec6a64c7b8ae92b2021-02-19T11:21:42ZengWileyAgrosystems, Geosciences & Environment2639-66962020-01-0131n/an/a10.1002/agg2.20013Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018Bruno Figueiredo0Jagmandeep Dhillon1Elizabeth Eickhoff2Eva Nambi3William Raun4Department of Plant and Soil Sciences Oklahoma State University 044 Agricultural Hall Stillwater OK 74078Department of Plant and Soil Sciences Oklahoma State University 044 Agricultural Hall Stillwater OK 74078Department of Plant and Soil Sciences Oklahoma State University 044 Agricultural Hall Stillwater OK 74078Department of Plant and Soil Sciences Oklahoma State University 044 Agricultural Hall Stillwater OK 74078Department of Plant and Soil Sciences Oklahoma State University 044 Agricultural Hall Stillwater OK 74078Abstract For over 25 yr, sensor‐based Normalized Difference Vegetative Index (NDVI) data has been collected from both satellite imagery and near‐plant (3‐m) readings. Because calibrated NDVI data coming from active sensors is still relatively new, limited research has returned to evaluate databases including multiple years and environments. Composite NDVI readings and final grain yield were collected from 1999 to 2018. This included growing degree day (GDD) records for each mid‐season sensor measurement. This was attempted to potentially improve the use of a historical and subjective morphological scale. Using location‐specific‐archived‐data from the Oklahoma Mesonet, the exact number of days from planting to sensing where GDD > 0 for each date and location were compiled. The ensuing relationship between NDVI (for a predetermined GDD > 0 range) and yield was determined. Grain yield prediction was improved between 80 and 115 GDDs. These ranges further targeted a climatologically identifiable metric that precisely determined when to collect sensor readings in future years. Compared with the current composite yield prediction equation for Oklahoma, the new exponential function created from this study was higher in the lower‐yielding environments. Underestimation of fertilizer N rates has been voiced by producers in recent years. This has likely been the product of more current varieties, more efficient farming practices, and increased optimum N rates needed for higher yields. This validates the adoption of a new YP0 equation for OSU's on‐line Sensor Based Nitrogen Rate Calculator, allowing accurate yield prediction between 80 and 115 GDDs.https://doi.org/10.1002/agg2.20013
collection DOAJ
language English
format Article
sources DOAJ
author Bruno Figueiredo
Jagmandeep Dhillon
Elizabeth Eickhoff
Eva Nambi
William Raun
spellingShingle Bruno Figueiredo
Jagmandeep Dhillon
Elizabeth Eickhoff
Eva Nambi
William Raun
Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018
Agrosystems, Geosciences & Environment
author_facet Bruno Figueiredo
Jagmandeep Dhillon
Elizabeth Eickhoff
Eva Nambi
William Raun
author_sort Bruno Figueiredo
title Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018
title_short Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018
title_full Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018
title_fullStr Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018
title_full_unstemmed Value of composite Normalized Difference Vegetative Index and growing degree days data in Oklahoma, 1999 to 2018
title_sort value of composite normalized difference vegetative index and growing degree days data in oklahoma, 1999 to 2018
publisher Wiley
series Agrosystems, Geosciences & Environment
issn 2639-6696
publishDate 2020-01-01
description Abstract For over 25 yr, sensor‐based Normalized Difference Vegetative Index (NDVI) data has been collected from both satellite imagery and near‐plant (3‐m) readings. Because calibrated NDVI data coming from active sensors is still relatively new, limited research has returned to evaluate databases including multiple years and environments. Composite NDVI readings and final grain yield were collected from 1999 to 2018. This included growing degree day (GDD) records for each mid‐season sensor measurement. This was attempted to potentially improve the use of a historical and subjective morphological scale. Using location‐specific‐archived‐data from the Oklahoma Mesonet, the exact number of days from planting to sensing where GDD > 0 for each date and location were compiled. The ensuing relationship between NDVI (for a predetermined GDD > 0 range) and yield was determined. Grain yield prediction was improved between 80 and 115 GDDs. These ranges further targeted a climatologically identifiable metric that precisely determined when to collect sensor readings in future years. Compared with the current composite yield prediction equation for Oklahoma, the new exponential function created from this study was higher in the lower‐yielding environments. Underestimation of fertilizer N rates has been voiced by producers in recent years. This has likely been the product of more current varieties, more efficient farming practices, and increased optimum N rates needed for higher yields. This validates the adoption of a new YP0 equation for OSU's on‐line Sensor Based Nitrogen Rate Calculator, allowing accurate yield prediction between 80 and 115 GDDs.
url https://doi.org/10.1002/agg2.20013
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