Lehrstuhl für Pflanzenökologie, Universität Bayreuth, D-8580 Bayreuth, Federal Republic of Germany.
Plant Physiol. 1991 Nov;97(3):1136-45. doi: 10.1104/pp.97.3.1136.
The root pressure probe was used to determine the effects of salinity on the hydraulic properties of primary roots of maize (Zea mays L. cv Halamish). Maize seedlings were grown in nutrient solutions modified by additions of NaCl and/or extra CaCl(2) so that the seedlings received one of four treatments: Control, plus 100 millimolar NaCl, plus 10 millimolar CaCl(2), plus 100 millimolar NaCl plus 10 millimolar CaCl(2). The hydraulic conductivities (Lp(r)) of primary root segments were determined by applying gradients of hydrostatic and osmotic pressure across the root cylinder. Exosmotic hydrostatic Lp(r) for the different treatments were 2.8, 1.7, 2.8, and 3.4.10(-7) meters per second per megapascals and the endosmotic hydrostatic Lp(r) were 2.4, 1.5, 2.7, and 2.3.10(-7) meters per second per megapascals, respectively. Exosmotic Lp(r) of the osmotic experiments were 0.55, 0.38, 0.68, and 0.60.10(-7) meters per second per megapascals and the endosmotic Lp(r) were 0.53, 0.21, 0.56, and 0.54.10(-7) meters per second per megapascals, respectively. The osmotic Lp(r) was significantly smaller (4-5 times) than hydrostatic Lp(r). However, both hydrostatic and osmotic Lp(r) experiments showed that salinization of the growth media at regular (0.5 millimolar) calcium levels decreased the Lp(r) significantly (30-60%). Addition of extra calcium (10 millimolar) to the salinized media caused ameliorative effects on Lp(r). The low Lp(r) values may partially explain the reduction in root growth rates caused by salinity. High calcium levels in the salinized media increased the relative availability of water needed for growth. The mean reflection coefficients of the roots using NaCl were between 0.64 and 0.73 and were not significantly different for the different treatments. The mean values of the root permeability coefficients to NaCl of the different treatments were between 2.2 and 3.5.10(-9) meters per second and were significantly different only in one of four treatments. Cutting the roots successively from the tip and measuring the changes in the hydraulic resistance of the root as well as staining of root cross-sections obtained at various distances from the root tip revealed that salinized roots had mature xylem elements closer to the tip (5-10 millimeters) compared with the controls (30 millimeters). Our results demonstrate that salinity has adverse effects on water transport and that extra calcium can, in part, compensate for these effects.
根压探针被用来确定盐度对玉米(Zea mays L. cv Halamish)初生根系水力性质的影响。玉米幼苗在添加 NaCl 和/或额外 CaCl2 的营养液中生长,以使幼苗接受以下四种处理之一:对照、加 100 毫摩尔 NaCl、加 10 毫摩尔 CaCl2、加 100 毫摩尔 NaCl 加 10 毫摩尔 CaCl2。通过在根柱上施加静水和渗透压梯度来确定初生根段的水力导率(Lp(r))。不同处理的外渗静水 Lp(r)分别为 2.8、1.7、2.8 和 3.4.10(-7) 米/秒/兆帕斯卡,内渗静水 Lp(r)分别为 2.4、1.5、2.7 和 2.3.10(-7) 米/秒/兆帕斯卡。渗透实验的外渗 Lp(r)分别为 0.55、0.38、0.68 和 0.60.10(-7) 米/秒/兆帕斯卡,内渗 Lp(r)分别为 0.53、0.21、0.56 和 0.54.10(-7) 米/秒/兆帕斯卡。渗透 Lp(r)明显小于静水 Lp(r)(4-5 倍)。然而,静水和渗透 Lp(r)实验均表明,在常规(0.5 毫摩尔)钙水平下盐化生长介质会显著降低 Lp(r)(30-60%)。向盐化介质中添加额外的钙(10 毫摩尔)会对 Lp(r)产生改善作用。低 Lp(r)值可能部分解释了盐度引起的根生长速率降低。盐化介质中高钙水平增加了生长所需的相对可用水量。用 NaCl 处理的根的平均反射系数在 0.64 和 0.73 之间,不同处理之间没有显著差异。不同处理的根对 NaCl 渗透率系数的平均值在 2.2 和 3.5.10(-9) 米/秒之间,仅在四个处理中的一个中差异显著。从尖端依次切割根,并测量根水力阻力的变化以及从根尖获得的根横截面的染色,结果表明盐化根比对照根(30 毫米)更接近根尖(5-10 毫米)处有成熟的木质部元素。我们的结果表明,盐度对水运输有不利影响,而额外的钙可以部分补偿这些影响。
