Leaf turgor pressure in maize plants under water stress

Riboldi, Lucas Baiochi; Oliveira, Ricardo Ferraz de; Angelocci, Luiz Roberto

doi:10.21475/ajcs.2016.10.06.p7602

Cited by 25 publications

(20 citation statements)

References 27 publications

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“…Leaf sensitivity to water shortage condition was due to its direct association and interaction with the surrounding environment, i.e., light capture, gas exchange, and thermoregulation (Chitwood and Sinha, 2016). Leaf played important role in transpiration process for maintaining cell turgidity, temperature, and controlling mechanistic movements, including opening and closing of stomata and leaf folding as initial symptoms of stress (Riboldi et al, 2016) Response of sensitive leaf to soil drying condition is expressed in deceleration of its expansion rate. This can be a very useful indicator in evaluating impact of drought stress on plant growth and development.…”

Section: Introductionmentioning

confidence: 99%

Relative leaf expansion rate and other leaf-related indicators for detection of drought stress in chili pepper (Capsicum annuum L.).

Widuri¹,

Lakitan²,

Hasmeda³

et al. 2017

Aust J Crop Sci

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Leaf is a sensitive plant organ in responding to abiotic stresses, especially drought stress. Objective of this research was to evaluate changes of relative leaf expansion rate (RLER) and other leaf-related indicators as affected by gradual drought stress. The stress was induced by withholding water supply to chili pepper (Capsicum annum L.) for up to 12 days. Afterward, the crops were allowed to recover. The research was conducted in two stages. The first stage was for finding a reliable leaf area (LA) estimation model. The second stage was for evaluating relevance of RLER, specific leaf fresh weight (SLFW), specific leaf water content (SLWC), and total leaf area (TLA) as indicators for drought stress in chili pepper. Combinations of five regression models (linear, zero-intercept linear, quadratic, zero-intercept quadratic, and power) and three predictors, i.e. leaf length (L), leaf width (W), and LW were evaluated as candidates of LA estimation model. Selection of the models was based on coefficient of determination (R 2 ) and geometrical principles. The selected model was used for calculating RLER, SLFW, SLWC and TLA. Results of this study indicated that dynamic changes of RLER were mainly driven by daily day-night cycle rather than long-term gradual drought stress. SLFW and SLWC did not significantly decrease during drought stress period. However, drought stress significantly inhibited TLA in chili pepper. Chili pepper was able to recover from short-term (4 days) exposure to drought stress; yet, this crop was unable to recover after 8 days exposure to drought stress or longer.

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Section: Introductionmentioning

confidence: 99%

Relative leaf expansion rate and other leaf-related indicators for detection of drought stress in chili pepper (Capsicum annuum L.).

Widuri¹,

Lakitan²,

Hasmeda³

et al. 2017

Aust J Crop Sci

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“…The gas exchange variables were not affected by the cultivars, nor by the interaction between water regimes and cultivars (Table 3). However, physiological changes in stomatal conductance, net CO 2 assimilation rate, and transpiration in maize plants subjected to full and deficit irrigation were detected in other studies (BIANCHI et al, 2007;RIBOLDI, OLIVEIRA;ANGELOCCI, 2016;SABAGH;BARUTÇULAR;ISLAM, 2017). ); E = transpiration rate (mmol H 2 O m -2 s -1 ); CV = coefficient of variation; *** = significant by the F test at ≤ 0.001; ns = not significant.…”

Section: Correlation Between Gas Exchange Cwsi and Multispectral Indexesmentioning

confidence: 70%

“…Higher stomatal conductance values are found when the solar radiation is high and the leaf water potential has not yet reached the minimum values to induce stomatal closure. Plants tend to decrease stomatal conductance under water deficit conditions as a strategy to avoid water loss to the atmosphere (RIBOLDI, OLIVEIRA;ANGELOCCI, 2016;SANTOS et al, 2018).…”

Section: Canopy Temperature Cwsi and Soil Moisturementioning

confidence: 99%

Water Status Evaluation of Maize Cultivars Using Aerial Images

et al. 2021

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The objective of this study was to evaluate the water status of maize cultivars through thermal and vegetation indexes generated from multispectral aerial images obtained from an unmanned aerial vehicle (UAV), and correlate them with physiological indicators and soil water contents. The application of three water regimes based on the reference evapotranspiration (ETo) (30%, 90%, and 150% ETo) was evaluated for two maize cultivars (AG-1051 and BRS-Caatingueiro). An UAV was used to acquire thermal and multispectral images. The indexes evaluated were CWSI, CI-G, CI-RE, CIV, NDVI and OSAVI, which were correlated with gas exchange and soil moisture measures. The CWSI present correlation with physiological indicators (stomatal conductance, transpiration, and net CO2 assimilation rate) that can be used to evaluate water status of maize plants. The multispectral vegetation indexes NDVI and OSAVI can replace the CWSI thermal index in water status evaluations for maize plants.

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“…Pri delovanju stresa suše u biljnim tkivima opada sadržaj vode, koji nastaje zbog smanjenog usvajanja i/ili povećanog odavanja vode. Tako kod biljaka dolazi do narušavanja vodnog potencijala, pri čemu njegove negativnije vrednosti ukazuju na prisustvo većeg stepena stresa suše, koji kod ćelija zatvaračica dovodi do opadanja turgora i zatvaranja stoma (Chaves et al, 2009;Riboldi et al, 2016;Moles et al, 2018).…”

Section: Uvodunclassified

“…3A). U suši opada vrednost vodnog potencijala, što dovodi do inhibicije porasta nadzemnog dela biljke (Achard et al, 2006;Zgallaï et al, 2006), opadanja turgora i zatvaranja stoma (Chaves et al, 2009;Moles et al, 2018) i smanjenja intenziteta fotosinteze (Riboldi et al, 2016). Ukupni vodni potencijal se posmatra kao hidraulički signal koji utiče na zatvaranje stoma.…”

Section: Rezultati I Diskusijaunclassified

The effect of drought stress on physiological responses of maize plants originating from seeds of different ages

Prokić¹,

Lužaić²,

Živanović³

et al. 2019

Selekcija i semenarstvo

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Suša nastaje kao posledica klimatskih promena, koja negativno utiče na rast i razvoj biljaka, a to dovodi do smanjenja prinosa. Cilj ovog rada bio je da se istraži efekat suše na fiziološke reakcije biljaka kukuruza (IP3722), koje su dobijene iz semena različite starosti (regenerisano 2012. i 2016.) i različitih prethodnih iskustava (semena koja su formirana 2012. su bila u većoj meri izložena suši nego ona iz 2016.). Suša je kod oba uzorka dovela do smanjenja sveže i suve mase nadzemnog dela biljke, što je bilo praćeno opadanjem lisne površine i stomatalne provodljivosti. Tretmanom suše su indukovani hemijski signali (ABA i pH) i hidraulički signal (vodni potencijal), koji su uticali na provodljivost stoma. Podaci su pokazali da hidraulički signal ima podjednak udeo na zatvaranje stoma u tretmanu D 2012 i D 2016. Takođe, ABA kao hemijski signal dovodi do zatvaranja stoma, ali ovaj efekat zavisi od toga da li ABA potiče iz korena ili lista. ABA poreklom iz lista je imala značajniji doprinos u zatvaranju stoma kod D 2012 , dok ABA poreklom iz korena i pH kod tretmana D 2016. Ključne reči: nadzemni deo, lisna površina, vodni potencijal, pH, ABA.

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Leaf turgor pressure in maize plants under water stress

Cited by 25 publications

References 27 publications

Relative leaf expansion rate and other leaf-related indicators for detection of drought stress in chili pepper (Capsicum annuum L.).

Relative leaf expansion rate and other leaf-related indicators for detection of drought stress in chili pepper (Capsicum annuum L.).

Water Status Evaluation of Maize Cultivars Using Aerial Images

The effect of drought stress on physiological responses of maize plants originating from seeds of different ages

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