Potassium Starvation Increases Stomatal Conductance in Olive Trees

Arquero, Octavio; Barranco, D.; Benlloch, M.

doi:10.21273/hortsci.41.2.433

Cited by 94 publications

(56 citation statements)

References 28 publications

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“…For all treatments, values are means of four replications7standard error. (Arquero et al, 2006). This would suggest that this physiological disorder is widespread among plants, and may be the chief cause of tissue dehydration in many rainfed crops with low potassium content.…”

Section: Discussionmentioning

confidence: 99%

“…However, in some of these studies, the potassium deficiency was extreme (Hsiao and Läuchli, 1986). In contrast, other authors suggest that potassium deficiency favours stomatal opening and transpiration in wheat and peas (Brag, 1972), sugar cane (Sudama et al, 1998) and, more recently, in the olive cultivar 'Chemlali de Sfax' (Arquero et al, 2006). It is not yet clear why potassium-deficient plants are more susceptible to dehydration.…”

Section: Introductionmentioning

confidence: 97%

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K+ starvation inhibits water-stress-induced stomatal closure

Benlloch-González

Arquero

Fournier

et al. 2008

Journal of Plant Physiology

Self Cite

118

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

K+ starvation inhibits water-stress-induced stomatal closure

Benlloch-González

Arquero

Fournier

et al. 2008

Journal of Plant Physiology

Self Cite

118

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“…Some reports indicate that under combined K deficiency and water‐limitation, stomatal control may be lost in perlite‐grown sunflower and olive plants, resulting in an inhibition of drought‐induced stomatal closure (Fournier et al , Arquero et al , Benlloch‐González et al , ). In accordance with the general concept, the authors do not attribute their results to a loss of osmotic stomatal control, but to an inhibition of the ABA signaling pathway by excessive ethylene production in the leaves.…”

Section: K and Mg Involvement In Photosynthesismentioning

confidence: 99%

Functioning of potassium and magnesium in photosynthesis, photosynthate translocation and photoprotection

Tränkner

Tavakol

Jákli

2018

Physiologia Plantarum

431

193

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Potassium (K) and magnesium (Mg) are mineral nutrients that are required in large quantities by plants. Both elements critically contribute to the process of photosynthesis and the subsequent long-distance transport of photoassimilates. If K or Mg is not present in sufficient quantities in photosynthetic tissues, complex interactions of anatomical, physiological and biochemical responses result in a reduction of photosynthetic carbon assimilation. As a consequence, excessive production of reactive oxygen species causes photo-oxidation of the photosynthetic apparatus and causes an up-regulation of photoprotective mechanisms. In this article, we review the functioning of K and Mg in processes directly or indirectly associated with photosynthesis. Focus is given to chloroplast ultrastructure, light-dependent and -independent reactions of photosynthesis and the diffusion of CO - a major substrate for photosynthesis - into chloroplasts. We further emphasize their contribution to phloem-loading and long-distance transport of photoassimilates and to the photoprotection of the photosynthetic apparatus.

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“…Very low nutrient availability and thus the lack of nutrient reserves impairs the plant's ability to sustain drought stress. Potassium deficiency for example is known to have detrimental effects on growth and survival under drought (Arquero et al ., ; Sardans & Peñuelas, ). However, when a nutrient threshold is exceeded, higher nutrient availability predisposes plants to drought‐induced mortality due to morphological and physiological traits that are adaptive towards high nutrient supply but maladaptive for drought survival.…”

Section: Integrating Nutrients Into the Hydraulic Framework Predictinmentioning

confidence: 99%

“…Conditions of high (or low) nutrient availability can each have positive and negative impacts on the likelihood of forest survival during drought (e.g. Arquero et al, 2006;Coomes et al, 2007;Dziedek et al, 2016). The legacy of high vs low nutrient supply on the long-term, that is, before the direct impact of a drought event, will affect the predisposition of plants to drought.…”

Section: Integrating Nutrients Into the Hydraulic Framework Predimentioning

confidence: 99%

The role of nutrients in drought‐induced tree mortality and recovery

2016

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Contents 513I.513II.514III.517518References518 Summary Global forests are experiencing rising temperatures and more severe droughts, with consistently dire forecasts for negative future impacts. Current research on the physiological mechanisms underlying drought impacts is focused on the water‐ and carbon‐associated mechanisms. The role of nutrients is notably missing from this research agenda. Here, we investigate what role, if any, forest nutrition plays for survival and recovery of forests during and after drought. High nutrient availability may play a detrimental role in drought survival due to preferential biomass allocation aboveground that (1) predispose plants to hydraulic constraints limiting photosynthesis and promoting hydraulic failure, (2) increases carbon costs during periods of carbon starvation, and (3) promote biotic attack due to low tissue carbon: nitrogen (C : N). When nutrient uptake occurs during drought, high nutrient availability can increase water use efficiency thus minimizing negative feedbacks between carbon and nutrient balance. Nutrients are released after drought ceases, which might promote faster recovery but the temporal dynamics of microbial immobilization and nutrient leaching have a significant impact on nutrient availability. We provide a framework for understanding nutrient impacts on drought survival that allows a more complete analysis of forest ecosystem responses.

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Potassium Starvation Increases Stomatal Conductance in Olive Trees

Cited by 94 publications

References 28 publications

K+ starvation inhibits water-stress-induced stomatal closure

K+ starvation inhibits water-stress-induced stomatal closure

Functioning of potassium and magnesium in photosynthesis, photosynthate translocation and photoprotection

The role of nutrients in drought‐induced tree mortality and recovery

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