Soil and Crop Management Practices to Minimize the Impact of Waterlogging on Crop Productivity

Overview

Journal Front Plant Sci

Date 2019 Feb 28

PMID 30809241

Citations 34

Authors

S M Nuruzzaman Manik

Georgina Pengilley

Geoffrey Dean

Brian Field

Sergey Shabala

Meixue Zhou

Affiliations

Soon will be listed here.

Abstract

Waterlogging remains a significant constraint to cereal production across the globe in areas with high rainfall and/or poor drainage. Improving tolerance of plants to waterlogging is the most economical way of tackling the problem. However, under severe waterlogging combined agronomic, engineering and genetic solutions will be more effective. A wide range of agronomic and engineering solutions are currently being used by grain growers to reduce losses from waterlogging. In this scoping study, we reviewed the effects of waterlogging on plant growth, and advantages and disadvantages of various agronomic and engineering solutions which are used to mitigate waterlogging damage. Further research should be focused on: cost/benefit analyses of different drainage strategies; understanding the mechanisms of nutrient loss during waterlogging and quantifying the benefits of nutrient application; increasing soil profile de-watering through soil improvement and agronomic strategies; revealing specificity of the interaction between different management practices and environment as well as among management practices; and more importantly, combined genetic, agronomic and engineering strategies for varying environments.

Citing Articles

Comparative Transcriptome Analyses Reveal the Mechanisms Underlying Waterlogging Tolerance in Barley.

Zhu J, Yin H, Cao C, Sun C, Zhang M, Hong Y Plants (Basel). 2025; 14(1.

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Long-term changes in soil biological activity and other properties of raised beds in Longan orchards.

Nguyen N, Nguyen P, Chau A, Do L, Nguyen T, Tran D PeerJ. 2024; 12:e18396.

PMID: 39677944 PMC: 11639206. DOI: 10.7717/peerj.18396.

Typology of Tomato Cropping Systems and Determinants of Preharvest Losses in Western Cameroon.

Titti R, Etoga A, Ntsoli P, Etame G, Chotangui A, Bikomo R Scientifica (Cairo). 2024; 2024:5625648.

PMID: 39524177 PMC: 11548949. DOI: 10.1155/2024/5625648.

Geography, altitude, agriculture, and hypoxia.

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Environmental genome-wide association studies across precipitation regimes reveal that the E3 ubiquitin ligase MBR1 regulates plant adaptation to rainy environments.

Castellana S, Triozzi P, DellAcqua M, Loreti E, Perata P Plant Commun. 2024; 5(12):101074.

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