7种园林绿化树种蒸腾耗水特性研究

以香樟、桂花、无患子、黄山栾树、沙朴、紫弹朴和珊瑚朴等7种园林绿化树种为研究对象,采用盆栽实验方法,用Li-6400便携式光合测定仪和ACS-D11电子天平等仪器,通过对其在不同天气条件下的瞬时蒸腾速率、日耗水量等进行了测定和研究。结果表明:1在水分充足条件下,7种供试树种在不同天气条件下的耗水速率基本一致,均是早晚低、中午前后高,呈双峰或单峰曲线;2日耗水量在不同天气条件下差异达到了极显著水平,而在不同树种间差异达到了显著水平,其中紫弹朴的日耗水量是极显著高于香樟,且显著高于其他5个树种。     

丛枝菌根真菌对鸢尾的促进作用研究

为高效利用水陆两栖植物鸢尾修复污染水体,本研究通过测定不同的丛枝菌根真菌(AMF)与鸢尾构建共生体系的生长指标、土壤理化性质及植物光合作用指标,探讨不同AMF对水生植物鸢尾的促进作用。结果表明:AMF对鸢尾的促进作用主要体现在地上及地下两部分,其中地下部分通过利用其庞大的菌丝网络吸收土壤中的营养物质,进而促进了鸢尾的生长,其中对比无菌剂侵染的空白植物,摩西球囊霉作用的鸢尾对氮元素的吸收率提高71.75%,磷元素的吸收率提高8.36%,而根内球囊霉作用的鸢尾对氮元素的吸收率提高42.55%,磷元素的吸收率提高9.5%;而地上部分则是通过加强叶片气孔导度的开启来调控植物净光合速率与蒸腾速率之间的平衡,进而提高了鸢尾的最优水资源利用率,加快植物的新陈代谢,最终促进植物的生长发育。其中对于鸢尾光合作用的调节摩西球囊霉的促进效果显著好于(P<0.05)根内球囊霉。     

油料植物红皮糙果茶与油茶叶片光合特性研究

为探明油料植物红皮糙果茶（Camellia crapnelliana Tutcher）光合作用日变化体征,为其科学栽培提供理论依据, 采用Licor-6400便携式光合作用测定仪测定红皮糙果茶和油茶（Camellia oleifera L.）的光合生理特性及环境因子的日变化,并进行分析研究。结果表明,在晴天条件下红皮糙果茶净光合速率曲线呈双峰状,自9:10至13:10期间有一个长达4 h的高效光合平台期（19.7～20.2 μmol·m^-2·s^-1）,最大值为20.2 μmol·m^-2·s^-1。气孔导度日变化与油茶相似呈单峰曲线于13:10达到峰值0.22 mmol·m^-2·s^-1,但其蒸腾速率整体高于油茶。油茶无明显光合“午休”现象,净光合速率最大值出现在中午11:10,为20.1 μmol·m^-2·s^-1。相比之下红皮糙果茶光合作用时间较长,总光合产率较高。     

Effects of silicon application on drought resistance of cucumber plants

A study on the effects of silicon supply on the resistance to drought in cucumber plants was conducted in pot experiments. The results suggested that in the absence of stress, silicon slightly enhanced the net photosynthetic rate, but significantly decreased the transpiration rate and stomatal conductance in cucumber plants. Silicon enhanced the net photosynthetic rate of cucumber plants under drought stress. Since silicon decreased the stomatal conductance, enhanced the capacity of holding water, and kept the transpiration rate at a relatively steady rate during drought stress, the photosynthesis of the cucumber plants was sustained. And under drought stress, silicon increased the biomass and water content of leaves in cucumber plants. Silicon decreased the decomposition of chlorophyll in cucumber plants under drought stress, limited the increase of the plasma membrane permeability and malondialdehyde (MDA) content in leaves, alleviated the physiological response of peroxidase (POD) to drought stress, maintained the superoxide dismutase (SOD) normal adaptation, and increased the activity of catalase (CAT). Under severe stress, these physiological biochemical reactions showed positive correlations with the amount of silicon supply. These findings demonstrated that silicon enhanced the resistance of the cucumber plants to drought. Statistical analysis indicated that under drought stress the cumulative value of biomass showed a highly significant correlation with the cumulative value of diurnal photosynthesis (r = 0.9812, p < 0.01), and was significantly correlated with the water content of leaves (r = 0.8650, p < 0.05). These results demonstrated that under drought stress the first factor responsible for the effects of silicon application on the cumulative value of biomass was the increase of photosynthesis, and the second factor was the enhancement of the water holding capacity. Based on these facts, it was concluded that silicon enhanced the resistance to drought mainly by taking part in the metabolism of plants.     

Sap flow of Castanopsis jianfengensis and its relationship with environmental factors in a tropical montane rainforest

Using thermal dissipation and the ICT-2000TE equipment made in Australia, the sap flow of Castanopsis jianfengensis and various environmental factors were measured simultaneously in a mixed tropical montane rainforest at Jianfengling Nature Forest Reserve (18°369′N, 108°52′E, 860 m elevation) during the dry and rainy seasons of 2002. The results show that sap flow velocity of C. jianfengensis exhibited a monopeak pattern on clear days and a multi-peak pattern on cloudy or rainy days. Sap flow velocity had significant positive correlations with solar radiation, air temperature, vapor pressure deficit and wind speed and a negative correlation with air relative humidity. In the dry season, sap flow velocity had a significant positive correlation with soil temperature and poor correlation with soil moisture; it was the opposite in the rainy season, indicating that precipitation clearly affected sap flow. Linear regression models between sap flow and environmental factors were established and were significant at the 0.005 level of probability. The mean transpiration rates of C. jianfengensis were 103.5 and 41.3 kg/d in our single tree and 1.94 and 0.77 mm/d in stand level in the dry and rainy season, respectively. __________ Translated from the Chinese Journal of Applied Ecology, 2007, 18(4): 742–748 [译自:应用生态学报]     

内蒙古典型草原地区常见植物光合、蒸腾速率和水分利用效率的比较研究

在所测78种植物中，光合(Ph)、蒸腾速率(Tr)和水分利用效率(WUE)的平均值，分别以反枝苋、藜和西伯利亚滨藜最高。在不同分类系统中，Ph、Tr和WUE个指标，C4植物大于C3植物；双子叶植物通常大于单子叶植物；藜科植物高于其他科植物；1—2年生草本高于其他生活型植物；撂荒地植物一般高于其他植被类型的植物。方差分析表明，光合速率的差异显著性水平在各分类系统中均高于蒸腾速率和水分利用效率。     

棉花渗透调节与蒸腾速率的日变化关系

大田正常供水条件下，随１ｄ内光照和温度增加，棉花叶水势及渗透势下降，最低水势为－１１．４巴，渗透势为－１４．２巴，其膨压值为２．８巴，表现出渗透调节作用。气孔导度在中午一段时间最高，而蒸腾速率最高点在１２∶００时，之后下降，表明水分胁迫下产生渗透调节作用，使叶片保水力增加，蒸腾减弱。Ｋ＋和可溶性糖变化，以渗透势下降最低时积累最多，是棉花干旱时主要的渗透调节物质。     

Compensatory Growth Responses During Reproductive Phase of Cowpea after Relief of Water Stress

Unpredictable drought affects growth and yield of dryland cowpea ( Vigna unguiculata [L.] Walp.) during rainy season. With the objective of identifying compensatory growth responses after relief of water stress, pot-grown plants (cv. C-752) were water-stressed at flowering, and physiological responses, short term dry matter partitioning upon relief of water stress, and productivity at maturity were studied. Water stress decreased, to varying degrees, leaf water potential, stomatal conductance, photosynthesis rate and transpiration rate. Recovery in assimilation lagged behind that in water relations. Assimilate supply seemed to be limiting early pod growth upon relief of water stress due to low photosynthesis rate, reduced leaf area per pod, and increased partitioning to leaf expansion. However, later pod growth was not limited by assimilate supply and final dry matter per pod was similar in both non-stressed and stress-affected plant. Cowpea exhibited the following growth responses during pod-fill stage upon relief of water stress: 1. increase in leaf area, 2. shift in dry matter partitioning in favour of leaf expansion, 3. extended green leaf duration, and 4. increase in pod number. These partially compensating physiological responses probably ensure reasonable productivity of dryland cowpea during rainy season.     

Effect of Water Stress on Physiological Attributes and their Relationship with Growth and Yield of Wheat Cultivars at Different Stages

The effects of water stress on physiological attributes of drought‐sensitive (Kalyansona) and drought‐tolerant (C‐306) wheat cultivars were studied in a pot experiment. Water stress was imposed by withholding irrigation at boot and anthesis stages. Leaf water potential, leaf osmotic potential and leaf turgor potential (measured with pressure chamber and osmometer), as well as leaf diffusive resistance, leaf transpiration rate and leaf‐to‐air transpiration gradient (measured with a steady‐state porometer) were measured diurnally. Growth and yield parameters were recorded after harvesting of the crop. Triplicate data were analysed using a completely randomized design and correlations amongst these parameters were computed. Water stress was found to reduce diurnal leaf water potential and leaf osmotic potential in both the genotypes but leaf osmotic potential was significantly higher in the drought‐tolerant cultivar C‐306 than in the drought‐sensitive cultivar Kalyansona. Positive turgor was recorded in both the genotypes under water stress and non‐stress conditions. Water‐stressed plants showed significantly lower turgor potential than control plants. In diurnal observations, water‐stressed plants exhibited significantly higher leaf diffusive resistance in both genotypes at both stages. The diffusive resistance of C‐306 was predominantly higher than that of Kalyansona. Water stress decreased leaf transpiration rate at both stages but the reduction was higher at the anthesis stage. The leaf‐to‐air temperature gradient was much higher in C‐306 than in Kalyansona at the boot stage but at the anthesis stage genotypic variation was non‐significant. The capacity to maintain cooler foliage was lower at the anthesis stage than at the boot stage in both the cultivars. Shoot dry weight, number of grains, test weight, grain yield, biological yield and harvest index decreased to a greater extent when water stress was imposed at the anthesis stage, while imposition of water stress at the boot stage caused a greater reduction in plant height and number of tillers. Similarly, water stress caused a smaller reduction in growth, yield and yield attributes in C‐306 than in Kalyansona. In general, the correlation coefficient of grain and biological yield with water potential and its components was positive and highly significant. Similarly, turgor potential was also correlated positively and significantly with grain yield at both the stages, but with biological yield it was significant only at the anthesis stage. A negative and significant correlation was obtained for diffusive resistance and leaf‐to‐air temperature gradient with grain yield at the boot and anthesis stages. The rate of transpiration was also positively and significantly correlated to grain and biological yields at both the stages. Amongst the yield attributes, number of leaves and number of tillers were positively correlated at the anthesis stage, whereas leaf area and shoot dry weight were significantly correlated with grain and biological yields at both the stages.     

温室作物叶-气系统水流阻力研究初探

温室作物叶-气系统水流阻力的确定对计算作物蒸腾量、制定温室作物灌溉制度以及调控温室小气候具有重要意义,但测量难度较大。该文通过对温室作物周围环境微气象条件的连续观测，计算分析了温室作物叶-气系统水流阻力各分项即叶片周围层流副层边界层阻力(r_b)、冠层上方湍流边界层阻力(r_g)、空气动力学阻力(r_e)和叶片气孔阻力(r_i)的变化规律。结果表明：温室内r_b比较稳定，平均约235 s/m，且与环境因素关系不甚密切；温室内黄瓜、西红柿类植物生殖生长期r_g<b，在计算r_e时，r_g的影响可忽略，取r_e≈r_b；利用基于能量平衡方程和空气动力学方程得出的叶-气温差计算公式计算得到r_i，符合其变化的一般规律；在此基础上计算了温室黄瓜的蒸腾速率，与实测值的一致性较好。