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甘蔗(Saccharum spp. hybrid)是我国食糖生产的重要原料,当前生产中普遍存在施氮量高而氮肥利用率低的问题。除了优化施肥管理,种植氮高效的甘蔗品种也是减氮增效的重要途径之一。本研究以云南蔗区推广的早熟高产高糖甘蔗品种‘云蔗05-51’和‘云蔗081609’为试验材料,设置0、0.1、0.5、1、5、10 mmol/L 6个供氮水平开展水培试验,在苗期测定植株生物量、根系形态、氮浓度与累积量、氮素吸收利用效率等指标。结果表明:(1)2个品种地上部、根系及整株生物量均随供氮水平的升高呈先升后降趋势,‘云蔗081609’根系生物量先于其地上部达到峰值,‘云蔗05-51’则相反,‘云蔗05-51’和‘云蔗081609’达到最佳生长需要的供氮量分别为0.5、1 mmol/L,相同供氮水平下‘云蔗081609’生物量高于‘云蔗05-51’;(2)随供氮水平上升,2个品种的根系总长度和平均根直径先上升后趋于稳定,根表面积持续增加,比根长先升后降,相同供氮水平下‘云蔗081609’的根系总长度、平均根直径和根表面积高于‘云蔗05-51’,比根长则低于‘云蔗05-51’;(3)2个品种植株氮浓度及累积量随供氮水平的升高总体呈先上升后稳定的趋势,相同供氮水平下‘云蔗081609’的植株氮累积量高于‘云蔗05-51’;(4)随供氮水平的增加,2个品种的单位根长吸氮量呈先升后稳定的趋势,单位根表面积吸氮量则呈先升后降并趋于平稳,氮素生理利用效率均随供氮水平升高显著降低,在0.1~10 mmol/L范围内‘云蔗081609’单位根长的吸氮量高于‘云蔗05-51’,但单位根表面积吸氮量变化趋势基本一致,品种间氮素生理利用效率无差异。综上表明,‘云蔗081609’在苗期对氮的吸收量高于‘云蔗05-51’主要得益于更好的根系生长,苗期适宜需氮量低于‘云蔗05-51’。 相似文献
64.
干旱胁迫下杂草稻和栽培稻根系基因表达差异研究 总被引:1,自引:0,他引:1
利用Affymetrix水稻表达谱芯片(GeneChip Rice Genome Array)研究抗旱杂草稻HEB07-2与巴西陆稻(IAPAR9)在PEG模拟干旱胁迫下根系基因表达变化。结果表明,杂草稻HEB07-2转录组对干旱信号的响应程度与方向均与巴西陆稻存在很大差异,HEB07-2以正向调控为主,而巴西陆稻以负调控为主。干旱胁迫下杂草稻HEB07-2与巴西陆稻分别有6878个和2923个基因表达,其中HEB07-2受干旱胁迫诱导上调的基因有4693个,下调的基因有2185个;而巴西陆稻则分别有983个和1940个。在差异基因表达的倍数上也是HEB07-2高于巴西陆稻。进一步的GO分析表明,在干旱胁迫下,HEB07-2和IAPAR9根系基因响应途径的差异表现为HEB07-2在钾离子转运(GO:0006813)、次生物质代谢(GO:0019748)、细胞生长(GO:0016049)、葡萄糖代谢(GO:0006006)、跨膜离子转运器活性(GO:0015075)、亚铁血红素结合体(GO:0020037)、氧化还原酶活性(GO:0016491)等方面基因显著上调,这与生理数据和表型数据一致。 相似文献
65.
南瓜根系及根部土壤水浸液化感作用研究 总被引:1,自引:0,他引:1
以黄瓜、西瓜作受体材料,研究南瓜根系及根部土壤水浸液的化感作用。结果表明,南瓜根系及根部土壤水浸液对受体种子萌发率、萌发指数、幼苗根长、苗高和苗干重存在化感促进或抑制效应。对指标进行综合效应分析,发现南瓜根系及根部土壤水浸液化感作用呈现浓度效应及受体差异性,一定浓度水浸液处理对受体种子萌发阶段、幼苗生长阶段及整体生长有促进作用,但西瓜较黄瓜对浓度敏感,0.02 g/mL南瓜根系及根部土壤水浸液对黄瓜化感促进强度最大,0.04 g/mL处理下,表现为化感促进强度降低或微弱抑制作用;0.02和0.04 g/mL南瓜根系水浸液及0.04 g/mL根部土壤水浸液对西瓜则表现为强烈抑制现象。 相似文献
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Metal toxicity and soil acidity affect plant growth. A hydroponic experiment was conducted to simulate effects of pH and copper concentration [Cu] on early growth and biomass production of high-yielding rice seedlings (Oryza sativa L. cv. ‘NIAB 6’). The rice seedlings were allowed to grow in Yoshida nutrient solution with 1 (control), 8, 16, and 32 μM Cu at buffered pH levels of 4.5, 5.0, and 5.5, respectively. Shoot and root growth, leaf chlorophyll content, and root lipid peroxidation and K+ leakage of 15-day-old rice seedlings were determined. Results show that [Cu] had significant adverse effects on rice seedlings. Shoot height and root length were reduced by 18%–60% and 7%–69%, respectively, compared with the control, and shoot and root weight decreased by 26%–56%, and 25%, respectively, in response to progressive increases in [Cu]. Similarly, leaf chlorophyll content decreased by 150%–245% compared with the control treatment. Rice seedling roots suffered from significant increases in lipid peroxidation followed by K+ leakage (> 8–23 times) in response to increasing [Cu]. Averaged across [Cu], seedling growth and biomass were greater at pH 5.5 than at other pH treatments. In some instances, increasing pH minimized the adverse effects of Cu at low concentrations on rice seedlings. 相似文献
68.
Yifan Hu Xiangsheng Ye Lei Shi Haiyan Duan Fangsen Xu 《Journal of plant nutrition》2013,36(6):889-901
Application of phosphorus (P) fertilizer is important in crop production because of the low bioavailability of phosphorus to plants in both acidic and calcareous soils. Although rapeseed (Brassica napus) is generally sensitive to P deficiency, different cultivars differ widely in this respect. Differences in P uptake and utilization between two rapeseed cultivars, one P-efficient (‘97081’) and one P-inefficient (‘97009’), were evaluated in solution culture by studying the changes in root morphology and parameters of P uptake kinetics in response to low-P stress. The P-efficient cultivar had lower Km and Cmin values and higher Vmax and developed longer and denser lateral root hair with greater number of root tips and branches under low-P stress, which resulted in a better developed root system and more efficient uptake of P. That, in turn, led to higher concentration and accumulation of P in the plants, culminating in higher biomass production. However, P utilization efficiency (biomass production per unit P accumulated in plant) of the P-efficient ‘97081’ was lower than that of ‘97009’ when P was deficient. These results suggest that P efficiency in rapeseed is due to a better developed root system as well as efficient uptake of P. 相似文献
69.
Single phytotoxicity of two representative phthalate esters (PAEs), di-n-butyl phthalate (DnBP) and bis(2-ethylhexyl) phthalate (DEHP), was tested in mung bean (Vigna radiata) seedlings germinated for 72 h in soils spiked with varying concentrations (0-500 mg kg-1 soil) of DnBP or DEHP. PAEs added at up to 500 mg kg-1 soil exerted no significant effect on germination but both pollutants significantly inhibited root elongation (P 〈 0.01); DEHP inhibited shoot elongation (P 〈 0.01) and DnBP depressed biomass on a fresh weight basis (P 〈 0.05). Seedling shoot and root malondialdehyde (MDA) Contents tended to be stimulated by DnBP but inhibited by DEHP. However, increases in superoxide dismutase, peroxidase, ascorbate peroxidase and polyphenol oxidase activities, as well as glutathione (GSH) content, were induced at higher concentrations (e.g., 20 mg kg-1) of both compounds. Accumulation of proline in both roots and shoots and the storage compounds, such as free amino acids and total soluble sugars, in whole plant was induced under the stress exerted by both PAEs. The general responses of mung bean seedlings indicated higher toxicity of DnBP than DEHP on primary growth, during which root elongation was a more responsive index. MDA and GSH were more sensitive parameters in the roots than in the shoots and they might be recommended as physiologically sensitive parameters to assess the toxicity of PAE compounds in soils in future long-term studies. 相似文献
70.
为了实现植物根系结构形态的原位检测,植物根系单根的断层图像重建研究非常必要。该文应用动态电阻抗成像技术对土壤-树根模拟系统进行了图像重建,对重建图像进行二值化处理并求出树根在该系统中的位置坐标、面积和形状,并以树根的位置坐标、面积及形状的相对偏差为指标,分析了图像重建算法、土壤含水率2个因素对成像质量的影响。结果表明:电阻抗成像技术能够实现树木单根断层图像重建;将重建图像进行二值化处理,所得图像更加直观,便于定量评价成像质量;基于Newton单步残差正则化的一步牛顿误差重构(Newton's one-step error reconsruction,NOSER)算法,比基于全变差正则化的主双-内点模式(primal dual-interior point method,PD-IPM)算法的成像质量好;土壤含水率越高成像质量越好。该研究为基于电阻抗成像技术的植物根系结构形态的图像重建提供参考。 相似文献