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Using UAV-based multispectral imagery to predict Alfalfa biomass

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Alfalfa_biomass_prediction

Using UAV-based multispectral imagery to predict Alfalfa biomass

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The source code is for the paper "Validation of UAV‑based alfalfa biomass predictability using photogrammetry with fully automatic plot segmentation". If interested, please cite it.

TY  - JOUR
AU  - Tang, Zhou
AU  - Parajuli, Atit
AU  - Chen, Chunpeng James
AU  - Hu, Yang
AU  - Revolinski, Samuel
AU  - Medina, Cesar Augusto
AU  - Lin, Sen
AU  - Zhang, Zhiwu
AU  - Yu, Long-Xi
PY  - 2021
DA  - 2021/02/08
TI  - Validation of UAV-based alfalfa biomass predictability using photogrammetry with fully automatic plot segmentation
JO  - Scientific Reports
SP  - 3336
VL  - 11
IS  - 1
AB  - Alfalfa is the most widely cultivated forage legume, with approximately 30 million hectares planted worldwide. Genetic improvements in alfalfa have been highly successful in developing cultivars with exceptional winter hardiness and disease resistance traits. However, genetic improvements have been limited for complex economically important traits such as biomass. One of the major bottlenecks is the labor-intensive phenotyping burden for biomass selection. In this study, we employed two alfalfa fields to pave a path to overcome the challenge by using UAV images with fully automatic field plot segmentation for high-throughput phenotyping. The first field was used to develop the prediction model and the second field to validate the predictions. The first and second fields had 808 and 1025 plots, respectively. The first field had three harvests with biomass measured in May, July, and September of 2019. The second had one harvest with biomass measured in September of 2019. These two fields were imaged one day before harvesting with a DJI Phantom 4 pro UAV carrying an additional Sentera multispectral camera. Alfalfa plot images were extracted by GRID software to quantify vegetative area based on the Normalized Difference Vegetation Index. The prediction model developed from the first field explained 50–70% (R Square) of biomass variation in the second field by incorporating four features from UAV images: vegetative area, plant height, Normalized Green–Red Difference Index, and Normalized Difference Red Edge Index. This result suggests that UAV-based, high-throughput phenotyping could be used to improve the efficiency of the biomass selection process in alfalfa breeding programs.
SN  - 2045-2322
UR  - https://doi.org/10.1038/s41598-021-82797-x
DO  - 10.1038/s41598-021-82797-x
ID  - Tang2021
ER  - 

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