Alla Shvaleva scite author profile

We compared the metabolic responses of leaves and roots of two Eucalyptus globulus Labill. clones differing in drought sensitivity to a slowly imposed water deficit. Responses measured included changes in concentrations of soluble and insoluble sugars, proline, total protein and several antioxidant enzymes. In addition to the general decrease in growth caused by water deficit, we observed a decrease in osmotic potential when drought stress became severe. In both clones, the decrease was greater in roots than in leaves, consistent with the observed increases in concentrations of soluble sugars and proline in these organs. In roots of both clones, glutathione reductase activity increased significantly in response to water deficit, suggesting that this enzyme plays a protective role in roots during drought stress by catalyzing the catabolism of reactive oxygen species. Clone CN5 has stress avoidance mechanisms that account for its lower sensitivity to drought compared with Clone ST51.

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Responses to water stress in two Eucalyptus globulus clones differing in drought tolerance

Silva¹,

Shvaleva²,

Marôco³

et al. 2004

Tree Physiology

119

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We evaluated drought resistance mechanisms in a drought-tolerant clone (CN5) and a drought-sensitive clone (ST51) of Eucalyptus globulus Labill. based on the responses to drought of some physiological, biophysical and morphological characteristics of container-grown plants, with particular emphasis on root growth and hydraulic properties. Water loss in excess of that supplied to the containers led to a general decrease in growth and significant reductions in leaf area ratio, specific leaf area and leaf-to-root area ratio. Root hydraulic conductance and leaf-specific hydraulic conductance decreased as water stress became more severe. During the experiment, the drought-resistant CN5 clone maintained higher leaf water status (higher predawn and midday leaf water potentials), sustained a higher growth rate (new leaf area expansion and root growth) and displayed greater carbon allocation to the root system and lower leaf-to-root area ratio than the drought-sensitive ST51 clone. Clone CN5 possessed higher stomatal conductances at moderate stress as well as higher hydraulic conductances than Clone ST51. Differences in the response to drought in root biomass, coupled with changes in hydraulic properties, accounted for the clonal differences in drought tolerance, allowing Clone CN5 to balance transpiration and water absorption during drought treatment and thereby prolong the period of active carbon assimilation.

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Flavodoxin overexpression reduces cadmium-induced damage in alfalfa root nodules

Shvaleva

Peña²,

Rincón³

et al. 2009

Plant Soil

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Flavodoxins are electron carrier flavoproteins that are involved in the response to oxidative stress in bacteria and cyanobacteria. Recently, we obtained Sinorhizobium meliloti bacteria that overexpressed a flavodoxin from the cyanobacterium Anabaena variabilis [Redondo et al. (2009) Plant Physiology 149:1166-1178]. In the present work, tolerance to cadmium was evaluated in free-living transformed S. meliloti and in alfalfa plants nodulated by the flavodoxin-overexpressing rhizobia, in comparison with plants nodulated by wild-type bacteria. Overexpression of flavodoxin protected free-living S. meliloti from cadmium toxicity and had a positive effect on nitrogen fixation of alfalfa plants subjected to cadmium stress. Flavodoxin notably reduced cadmiuminduced structural and ultrastructural alterations in alfalfa nodules. Putative protection mechanisms in flavodoxin-overexpressing nodules are discussed. Flavodoxin could have applications as a biotechnological tool to improve the symbiotic performance of alfalfa and other legumes in cadmium polluted soils.

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Acclimation to short-term low temperatures in two Eucalyptus globulus clones with contrasting drought resistance

Silva¹,

Shvaleva

Broetto

et al. 2008

Tree Physiology

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We tested the hypothesis that Eucalyptus globulus Labill. genotypes that are more resistant to dry environments might also exhibit higher cold tolerances than drought-sensitive plants. The effect of low temperatures was evaluated in acclimated and unacclimated ramets of a drought-resistant clone (CN5) and a drought-sensitive clone (ST51) of E. globulus. We studied the plants' response via leaf gas exchanges, leaf water and osmotic potentials, concentrations of soluble sugars, several antioxidant enzymes and leaf electrolyte leakage. Progressively lowering air temperatures (from 24/16 to 10/-2 degrees C, day/night) led to acclimation of both clones. Acclimated ramets exhibited higher photosynthetic rates, stomatal conductances and lower membrane relative injuries when compared to unacclimated ramets. Moreover, low temperatures led to significant increases of soluble sugars and antioxidant enzymes activity (glutathione reductase, ascorbate peroxidase and superoxide dismutases) of both clones in comparison to plants grown at control temperature (24/16 degrees C). On the other hand, none of the clones, either acclimated or not, exhibited signs of photoinhibition under low temperatures and moderate light. The main differences in the responses to low temperatures between the two clones resulted mainly from differences in carbon metabolism, including a higher accumulation of soluble sugars in the drought-resistant clone CN5 as well as a higher capacity for osmotic regulation, as compared to the drought-sensitive clone ST51. Although membrane injury data suggested that both clones had the same inherent freezing tolerance before and after cold acclimation, the results also support the hypothesis that the drought-resistant clone had a greater cold tolerance at intermediate levels of acclimation than the drought-sensitive clone. A higher capacity to acclimate in a short period can allow a clone to maintain an undamaged leaf surface area along sudden frost events, increasing growth capacity. Moreover, it can enhance survival chances in frost-prone sites expanding the plantation range with more adaptive clones.

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Comparison of methane, nitrous oxide fluxes and CO2 respiration rates from a Mediterranean cork oak ecosystem and improved pasture

Shvaleva

Silva²,

Costa

et al. 2013

Plant Soil

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Alla Shvaleva

Metabolic responses to water deficit in two Eucalyptus globulus clones with contrasting drought sensitivity

Responses to water stress in two Eucalyptus globulus clones differing in drought tolerance

Flavodoxin overexpression reduces cadmium-induced damage in alfalfa root nodules

Acclimation to short-term low temperatures in two Eucalyptus globulus clones with contrasting drought resistance

Comparison of methane, nitrous oxide fluxes and CO2 respiration rates from a Mediterranean cork oak ecosystem and improved pasture

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