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Photoinduced Seed Germination of Oenothera biennis L: II. Analysis of the Photoinduction Period
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The photoinduction period of Oenothera biennis L. seed germination was analyzed by varying the photoinduction temperature and by substituting red light pulses for continuous red light. At 24°C, seeds require 36 hours of continuous red light for maximal percent germination. The optimal photoinduction temperature is 32°C, with higher and lower temperatures being strongly inhibitory. A 30 minute exposure to far-red light, given immediately after a red light period of 1 to 36 hours, reduces germination by about 25%. Seeds escape from far-red inhibition with a half-time of 5 to 10 hours, depending on the length of the red exposure that precedes the far-red light. Periodic 15 minute pulses of red light can substitute for continuous red light in stimulating germination. Ted red light pulses, with 6 hours of darkness between successive pulses, cause maximal germination. The response to periodic red light is fully reversible by far-red light. Probit analysis of the periodic light response shows that as the length of the dark periods between successive pulses increases, less incident light is needed to induce germination but the population variance in light sensitivity remains constant. Probit analysis of the temperature response shows that as the photoinduction temperature increases from 16 to 32°C, less incident light is needed to induce germination and the population variance in light sensitivity also increases. 相似文献
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Maintenance of photosynthesis at low leaf water potential in wheat : role of potassium status and irrigation history 总被引:2,自引:2,他引:0
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The interaction of low water potential effects on photosynthesis, and leaf K+ levels in wheat (Triticum aestivum L.) plants was studied. Plants were grown at three K+ fertilization levels; 0.2, 2, and 6 millimolar. With well watered plants, 2 millimolar K+ supported maximal photosynthetic rates; 0.2 millimolar K+ was inhibitory, and 6 millimolar K+ was superoptimal (i.e. rates were no greater than at 2 millimolar K+). Photosynthesis was monitored at high (930 parts per million) and low (330 parts per million) external CO2 throughout a series of water stress cycles. Plants subjected to one stress cycle were considered nonacclimated; plants subjected to two successive cycles were considered acclimated during the second cycle. Sensitivity of photosynthesis to declining leaf water potential was affected by K+ status; 6 millimolar K+ plants were less sensitive, and 0.2 millimolar K+ plants were more sensitive than 2 millimolar K+ plants to declining water potential. This occurred with nonacclimated and acclimated plants at both high and low assay CO2. It was concluded that the K+ effect on photosynthesis under stress was not mediated by treatment effects on stomatal resistance. Differences between the K+ treatments were much less pronounced, however, when photosynthesis of nonacclimated and acclimated plants was plotted at a function of declining relative water content during the stress cycles. These results suggest that K+ effects on the relationship between relative water content and water potential in stressed plants was primarily responsible for the bulk of the K+-protective effect on photosynthesis in stressed plants. In vitro experiments with chloroplasts and protoplasts isolated from 2 millimolar K+ and 6 millimolar K+ plants indicated that upon dehydration, K+ efflux from the chloroplast stroma into the cytoplasm is less pronounced in 6 millimolar K+ protoplasts. 相似文献
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