27 research outputs found

    Stomatal responses of Eucalyptus species to elevated CO2 concentration and drought stress

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    Five species of Eucalyptus (E. grandis, E. urophylla, E. camaldulensis, E. torelliana, and E. phaeotrica), among the ten species most commonly used in large scale plantations, were selected for studies on the effects of elevated CO2 concentration [CO2] and drought stress on stomatal responses of 2.5-month old seedlings. The first three species belong to the subgenus Smphyomyrtus, whereas the fourth species belongs to the subgenus Corymbia and E. phaeotrica is from the subgenus Monocalyptus. Seedlings were grown in four pairs of open-top chambers, arranged to have 2 plants of each species in each chamber, with four replications in each of two CO2 concentrations: 350 ± 30 mumol mol-1 and 700 ± 30 mumol mol-1. After 100 days in the chambers, a series of gas exchange measurements were made. Half the plants in each chamber, one plant per species per chamber, were drought-stressed by withholding irrigation, while the remaining plants continued to be watered daily. Drought stress decreased stomatal conductance, photosynthesis and transpiration rates in all the species. The effect of drought stress on stomatal closure was similar in both [CO2]. The positive effects of elevated [CO2] on photosynthesis and water use efficiency were maintained longer during the stress period than under well-watered conditions. The photosynthetic rate of E. phaeotrica was higher even in the fourth day of the drought stress. Drought stress increased photoinhibition of photosynthesis, as measured by chlorophyll fluorescence, which varied among the species, as well as in relation to [CO2]. The results are in agreement with observed differences in stomatal responses between some eucalyptus species of the subgenera Symphyomyrtus and Monocalyptus

    Water relations and photosynthesis as criteria for adequate irrigation management in 'Tahiti' lime trees

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    Irrigation scheduling based on soil moisture status is one of the most useful methods because of its practicality and low cost. The effects of available soil water depletion on evapotranspiration (ETc), transpiration (E), leaf water potential at predawn (psiP) and midday (psiM), stomatal conductance (gs) and net CO2 assimilation (A) in lime 'Tahiti' trees (Citrus latifolia) were evaluated to improve irrigation schedule and minimize water use without causing water stress. The trees were spaced 7 <FONT FACE=Symbol>&acute;</FONT> 4 m and drip-irrigated by four drippers with the available soil water content (AWC) depleted by suspension of irrigation (40 days). Leaf water potential was measured on a pressure chamber (psiP and psiM) and leaf gas exchange was measured by infrared gas analyzer (E, gs and A). Evapotranspiration was determined with the aid of weighing lysimeter. Water soil content and potential (psiS) were monitored with TDR probes and tensiometers, respectively, installed at 0.3, 0.6 and 0.9 m depths. Meteorological variables were monitored with an automatic weather station in the experimental area. The threshold AWC level for the onset of ETc decline was 43%, and 60% for gs, A, E and Y P. Also, psiP was more sensitive to AWC than psiM, and is therefore a better tool for irrigation. When AWC was around 60%, values of psiP and psis were -0.62 MPa and -48.8 kPa, respectively

    Transpiration

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    Capacidade fotossintética de genótipos de amendoim em ambiente natural e controlado Photosynthetic capacity of peanut genotypes under natural and controlled environment

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    A capacidade fotossintética das cultivares de amendoim rasteiro (Arachis hypogaea L.) IAC-Caiapó e Runner IAC-886 foi avaliada sob condição controlada, em plantas cultivadas em vasos, mantidos em casa de vegetação, e sob condição natural, em plantas irrigadas, cultivadas em tanques de alvenaria. A resposta da taxa de assimilação líquida de CO2 (A) em decorrência da densidade de fluxo de fótons fotossinteticamente ativos (DFFF) foi melhor em condição controlada, mas, nas duas condições, a mesma A máxima de ca. 28 µmol m-2 s-1 foi atingida. Em condição controlada, a saturação lumínica ocorreu próximo a 1.000 µmol m-2 s-1 , ao passo que sob condição natural, ocorreu em DFFF maiores. A temperatura foliar entre 23 e 36&deg;C não afetou A. A diferença de pressão de vapor entre a folha e o ar causou o fechamento parcial dos estômatos, diminuindo A, quando acima de 3,0 kPa. As capacidades fotossintéticas das duas cultivares de amendoim foram iguais. Ambas cultivares apresentaram boa adaptação às variações diárias do ambiente, ocorridas durante o verão, apresentando fotoinibição dinâmica da fotossíntese no início da tarde (13-14h), manifestada pela queda reversível da eficiência quântica máxima (Fv/Fm) do fotossistema II.<br>Photosynthetic capacity of runner peanuts (Arachis hypogaea L.) cv. IAC-Caiapó and cv. Runner IAC-886 was evaluated under controlled condition, in plants grown on pots maintained in a greenhouse, and in irrigated plants grown on soil-filled tanks made of concrete, and exposed to natural ambient condition. CO2 net assimilation rate (A) response in relation to photosynthetic photon flux density (DFFF) was better in controlled condition, but in both conditions the same maximum A of ca. 28 µmol m-2 s-1 was reached. Under controlled condition, light saturation was about 1,000 µmol m-2 s-1 , although under natural condition, saturation occurred at higher DFFF. Leaf temperature between 23 and 36&deg;C did not affect A, and leaf to air vapor pressure difference caused partial stomatal closing, decreasing A, when above 3.0 kPa. Photosynthetic capacities of the two cultivars were similar. Both cultivars showed good adaptation to daily changes of environmental conditions that occur during summer, showing dynamic photoinhibition of photosynthesis in the beginning of the afternoon (13-14h), as revealed by a reversible decrease in the maximum quantum efficiency (Fv/Fm) of photosystem II
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