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排序方式: 共有809条查询结果,搜索用时 15 毫秒
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Y. A. Nanja Reddy M. N. Keshava Murthy K. Virupakshappa R. Uma Shaanker 《Journal of Agronomy and Crop Science》1995,175(2):83-86
Measurement of total leaf area per plant in crop improvement programmes for a variety of purposes is often very tedious and time consuming. In this paper, we offer a rapid and non-destructive method of estimating the total leaf area in sunflower at the time of anthesis. We show that multiplying the leaf area of a specific leaf position from the apex by the total number of leaves per plant yields total leaf area with more than 95 % accuracy. The specific leaf position for any given genotype in sunflower can be arrived at by multiplying the total number of leaves per plant by the factor 0.355 and rounding off to the nearest highest integer. This technique can be used for the rapid estimation of leaf area per plant at anthesis for any given genotype of sunflower. 相似文献
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Forty-five accessions of sunflower collected from different countries were screened for salinity tolerance after 2 weeks growth in sand culture salinized with 150 meq l?1 of NaCl2+ CaCl2 (1:1 ratio equivalent wt. basis) in half strength Hoagland's nutrient solution. The results for plant biomass of 45 accessions show that there was considerable variation in salinity tolerance. In a further greenhouse experiment, the salinity tolerance of three tolerant (HO-1, Predovik, Euroflor) and two sensitive (SMH-24, 9UO-985) lines (selected on the basis of their performance in the seedling experiment) was assessed at the adult stage to evaluate the consistency of salinity tolerance at different growth stages. All three salt tolerant accessions produced significantly greater plant biomass, seed yield and seed oil content than the salt sensitive accessions. The tolerant accessions accumulated less Cl? and more K+ in the leaves under saline conditions compared with the salt sensitive accessions. The salt tolerant accessions also maintained relatively high leaf K:Na ratio and K+ versus Na+ selectivity. Although statistically nonsignificant, all three tolerant accessions had greater soluble carbohydrates, soluble proteins, total free amino acids and proline in the leaves than the sensitive accessions. A field trial conducted in a salt-affected field confirmed the greenhouse results of the selected accessions. This study shows that salinity tolerance of sunflower does not vary with stage of plant cycle, so selection for increased salt tolerance can be carried out at the initial growth stage. Secondly, it is found that there is great variation of salt tolerance in sunflower. Low uptake of Cl?, high uptake of K+, and maintenance of high K:Na ratios and K+ versus Na+ selectivity in the leaves and possibly the accumulation of organic osmotica such as soluble carbohydrates, soluble proteins, proline and free amino acids seem to be the important components of salt tolerance in sunflower. 相似文献
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本试验通过对接种黄萎病的地块进行不同浇水次数的处理来调查分析浇水次数对向日葵黄萎病发生程度及产量的影响.结果表明随着浇水次数的增多,向日葵黄萎病的发病严重度也随之增加,且向日葵的产量呈现降低的趋势.在接种的地块中浇水1次的病情病指由29.0递增到浇水3次51.5;产量则由浇水1次的4690.95kg/公顷降低至浇水3次的3815.55kg/公顷. 相似文献
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不同盐分条件下油葵光合日变化特征研究 总被引:17,自引:0,他引:17
采用LI-6400型光合仪测定新疆产康地115号油料向日葵在不同盐溃化土壤现蕾期的光合速率日变化及其影响因子。结果表明,3种不同盐分处理其净光合速率日变化曲线均为单峰曲线。0.29%、0.39%盐分含量处理的Pn峰值在上午10:00,而0.68%盐分含量处理在中午12:00。随着盐分胁迫的增加,其光合速率总体呈现下降趋势。相关及路径分析结果表明,光强并不是Pn的主要限制因素,轻度盐分处理Pn的下降受气孔因素的影响,中度盐分处理Pn的下降则是气孔因素、气孔与非气孔因素协同作用的结果,重度盐分处理Pn的下降主要是受非气孔因素和气孔与非气孔因素协同作用的影响。 相似文献
80.
《Journal of Crop Improvement》2013,27(2):287-298
Summary It is well known that C4 crops have a lower water requirement than C3 crops. Reasons for the difference are not well understood. Therefore, hydraulic resistance of sorghum [Sorghum bicolor (L.) Moench] (C4) and sunflower (Helianthus annuus L.) (C3) was determined to see if it might be one explanation for the lower water use of crops with the C4 photosynthetic pathway. Plants were grown under greenhouse conditions in pots with soil, which was well watered (soil matric potential of ~0 MPa) or allowed to dry (soil matric potential of ?0.038 MPa and ?0.065 MPa for sorghum and sunflower, respectively). Hydraulic resistance was calculated in two ways: (1) using the classic Ohm's law analogue, which assumes that the relation between flux (transpiration) and difference in water potentials of the soil and plant is linear and (2) using an equation that considers diurnal changes in leaf water content along with transpiration and difference in water potentials. Because change in leaf-water content during a day was small, hydraulic resistances calculated by the two methods resulted in similar values. Sorghum had a linear relationship between flux and difference in potentials (constant hydraulic resistance), but sunflower had a nonlinear one (variable hydraulic resistance). The hydraulic resistance of watered sunflower increased only slightly during a day and averaged about 40 MPa m2 s mol?1, which was 3.5 times less than that of watered or water-stressed sorghum (-140 MPa m2 s mol?1). The hydraulic resistance of water-stressed sunflower increased steeply during a day and by the end of the day it had a hydraulic resistance that approached that of sorghum. 相似文献