Review of wheat improvement for waterlogging tolerance in Australia and India: the importance of anaerobiosis and element toxicities associated with different soils

Setter, T.L.; Waters, I.; Sharma, Surinder K.; Singh, K. N.; Kulshreshtha, Neeraj; Yaduvanshi, N.P.S.; Ram, P. C.; Singh, Bipin Kumar; Rane, Jagadish; McDonald, G.; Khabaz‐Saberi, Hossein; Biddulph, Thomas Ben; Wilson, Robin; Barclay, I.; McLean, R.; Cakir, M.

doi:10.1093/aob/mcn137

Cited by 181 publications

(135 citation statements)

References 48 publications

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“…Fe 2+ and Mn 2+ toxicities) (Jackson and Drew 1984). Soil element toxicities associated with waterlogging might, in combination with the O 2 -deprivation stress, determine relative performances of different wheat genotypes on different soil types (Setter et al 2009). Even wetland species can suffer from entry of reduced compounds from the soil, depending on soil type and waterlogging duration.…”

Section: Soil Waterlogging -Long Durationmentioning

confidence: 99%

Flooding tolerance: suites of plant traits in variable environments

Colmer

Voesenek

2009

Functional Plant Biol.

688

538

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Abstract.Flooding regimes of different depths and durations impose selection pressures for various traits in terrestrial wetland plants. Suites of adaptive traits for different flooding stresses, such as soil waterlogging (short or long duration) and full submergence (short or long duration -shallow or deep), are reviewed. Synergies occur amongst traits for improved internal aeration, and those for anoxia tolerance and recovery, both for roots during soil waterlogging and shoots during submergence. Submergence tolerance of terrestrial species has recently been classified as either the Low Oxygen Quiescence Syndrome (LOQS) or the Low Oxygen Escape Syndrome (LOES), with advantages, respectively, in short duration or long duration (shallow) flood-prone environments. A major feature of species with the LOQS is that shoots do not elongate upon submergence, whereas those with the LOES show rapid shoot extension. In addition, plants faced with long duration deep submergence can demonstrate aspects of both syndromes; shoots do not elongate, but these are not quiescent, as new aquatictype leaves are formed. Enhanced entries of O 2 and CO 2 from floodwaters into acclimated leaves, minimises O 2 deprivation and improves underwater photosynthesis, respectively. Evolution of 'suites of traits' are evident in wild wetland species and in rice, adapted to particular flooding regimes.

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Section: Soil Waterlogging -Long Durationmentioning

confidence: 99%

Flooding tolerance: suites of plant traits in variable environments

Colmer

Voesenek

2009

Functional Plant Biol.

688

538

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“…The sudden saturation of well-drained soil causes rhizosphere microbes to rapidly consume available oxygen, triggering changes in the soil ecosystem that can alter the fixation of nitrogen and the availability of other nutrients to the plant. Floods are often accompanied by a decrease in soil pH, which increases the solubility of toxic metals, including iron and manganese, as well as phosphorus and other elements (Setter et al, 2009;Michalcová et al, 2011). Importantly, the approximately 10 4 -fold reduction in diffusion of gases in floodwaters limits the availability of oxygen and carbon dioxide for aerobic respiration and photosynthesis, respectively.…”

Section: Floods and Flooding Survival Mechanismsmentioning

confidence: 99%

Waterproofing Crops: Effective Flooding Survival Strategies

2012

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“…As the soil becomes even more reductive, sulphate reducers, which are strict anaerobes, produce sulphides; and methanobacteria, also strict anaerobes, produce methane (FFTC, 2007). However, in the opinion of Setter et al (2009) who reviewed the importance of anaerobiosis and element toxicities associated with different soils in Australia and India with respect to wheat improvement for waterlogging tolerance documented as follows that waterlogging alters the cation exchange capacity of soil particles and valency of nutrient elements (more reduced forms), making them toxic or unavailable for plant uptake.…”

Section: Response Of Lowland Rice To Split Fertilizer Applicationmentioning

confidence: 99%

Response of lowland rice-ratooned rice-fluted pumpkin sequence to fertilizer in rainfed inland valley in derived savannah of Nigeria

Adigbo

Odedina

Afolabi

et al. 2017

AAS

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ABSTRACT1) NPK ha -1 v fazi bilčenja in latenja riža. Gnojenja z dušikom pri obravnavanjih na podploskvah z ratoniranim rižem 'NERICA L-42' so dala najvišje rastline v primerjavi z drugimi. Sorta Ofada je potrebovala najmanjše število dni do 50 % cvetenja, sejanega in ratoniranega riža, 'NERICA L-42' pa je potrebovala največ dni do 50 % latenja. Sorta NERICA L-41 je imela največji pridelek zrnja pri sejanem in ratoniranem načinu pridelave. V raziskavi je bilo ugotovljeno, da je sorta NERICA L-41 pri običajni setvi in sledečem ratoniranem posevku pri enkratnem dodatku gnojil in brez dodatnega dognojevanja z N dosegla pridelek zrnja 4.69 t ha -1

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Review of wheat improvement for waterlogging tolerance in Australia and India: the importance of anaerobiosis and element toxicities associated with different soils

Cited by 181 publications

References 48 publications

Flooding tolerance: suites of plant traits in variable environments

Flooding tolerance: suites of plant traits in variable environments

Waterproofing Crops: Effective Flooding Survival Strategies

Response of lowland rice-ratooned rice-fluted pumpkin sequence to fertilizer in rainfed inland valley in derived savannah of Nigeria

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