Villő Bernád scite author profile

Villő Bernád

4Publications

34Citation Statements Received

407Citation Statements Given

How they've been cited

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371

406

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University College Dublin

Publications

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Phenotyping for waterlogging tolerance in crops: current trends and future prospects

Langan

Bernád

Walsh

et al. 2022

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Yield losses to waterlogging are expected to become an increasingly costly and frequent issue in some regions of the world. Despite the extensive work that has been carried out examining the molecular and physiological responses to waterlogging, phenotyping for waterlogging tolerance has proven difficult. This difficulty is largely due to the high variability of waterlogging conditions such as duration, temperature, soil type, and growth stage of the crop. In this review, we aim to highlight efforts utilising phenotyping to assess and improve waterlogging tolerance in temperate crop species. We start by outlining the experimental methods that have been utilised to impose waterlogging stress, ranging from highly controlled conditions of hydroponic systems to large-scale screenings in the field. We also describe the phenotyping traits used to assess tolerance ranging from survival rates and visual scoring to precise photosynthetic measurements. Finally, we present an overview of the challenges faced in attempting to improve waterlogging tolerance, the trade-offs associated with phenotyping in controlled conditions, limitations of classic phenotyping methods and future trends using plant-imaging methods. If effectively utilised to increase crop resilience to changing climates, crop phenotyping has a major role to play in global food security.

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Capturing crop adaptation to abiotic stress using image-based technologies

et al. 2022

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Farmers and breeders aim to improve crop responses to abiotic stresses and secure yield under adverse environmental conditions. To achieve this goal and select the most resilient genotypes, plant breeders and researchers rely on phenotyping to quantify crop responses to abiotic stress. Recent advances in imaging technologies allow researchers to collect physiological data non-destructively and throughout time, making it possible to dissect complex plant responses into quantifiable traits. The use of image-based technologies enables the quantification of crop responses to stress in both controlled environmental conditions and field trials. This paper summarizes phenotyping imaging technologies (RGB, multispectral and hyperspectral sensors, among others) that have been used to assess different abiotic stresses including salinity, drought and nitrogen deficiency, while discussing their advantages and drawbacks. We present a detailed review of traits involved in abiotic tolerance, which have been quantified by a range of imaging sensors under high-throughput phenotyping facilities or using unmanned aerial vehicles in the field. We also provide an up-to-date compilation of spectral tolerance indices and discuss the progress and challenges in machine learning, including supervised and unsupervised models as well as deep learning.

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High-throughput phenotyping of the core European Heritage Collection (ExHIBiT) under waterlogging

Bernád

Jacob

Walsh

et al. 2022

Preprint

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Author response for "Capturing crop adaptation to abiotic stress using image-based technologies"

Al-Tamimi¹,

Langan²,

Bernád³

et al. 2022

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Villő Bernád

Phenotyping for waterlogging tolerance in crops: current trends and future prospects

Capturing crop adaptation to abiotic stress using image-based technologies

High-throughput phenotyping of the core European Heritage Collection (ExHIBiT) under waterlogging

Author response for "Capturing crop adaptation to abiotic stress using image-based technologies"

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