辣椒根系分泌物的化感作用及其化感物质分析

 利用生物测定和GC-MS分析的方法,研究了辣椒根系分泌物各组分的化感作用及其优势组分的化感物质。结果表明：辣椒根系分泌物各组分对莴苣的化感作用不同,以乙醚洗脱组分的化感作用最强;对乙醚洗脱组分进行再分离,最后得出80%乙醚＋20％乙酸乙酯洗脱组分的化感作用最强;对80%乙醚＋20％乙酸乙酯洗脱组分进行GC-MS分析鉴定,确定辣椒根系分泌的主要化感物质为邻苯二甲酸二丁酯、邻苯二甲酸-丁基-环己烷基酯、邻苯二甲酸-丁基-异丁酯、邻苯二甲酸二叔丁酯、二苯胺、4,4’-叔丁基二苯酚、苯萘胺、邻苯二甲酸,其中,邻苯二甲酸二丁酯的含量最高。     

不同基质及生根剂浓度对五种园林植物扦插生根的影响

以5种园林植物为材料,进行不同基质与不同生根剂浓度对植物扦插生根的比较研究.结果表明:月季、大叶黄杨最适宜的基质是河沙,小叶女贞、八角金盘最适宜的基质是珍珠岩,鹅掌柴最适宜的基质是混合基质.月季、大叶黄杨最合适的生根剂浓度为3 000 mg/kg,小叶女贞最合适的生根剂浓度为5000mg/kg,八角金盘、鹅掌柴最合适的生根剂浓度为1000mg/kg.     

甜菜产生叉根的原因初探

从种子芽势、作物茬口、播种量、镇压次数、育苗苗龄方面调查分析了甜菜产生叉根的原因。     

Simulation of transpiration, drainage, N uptake, nitrate leaching, and N uptake concentration in tomato grown in open substrate

Free-drainage or “open” substrate system used for vegetable production in greenhouses is associated with appreciable NO₃⁻ leaching losses and drainage volumes. Simulation models of crop N uptake, N leaching, water use and drainage of crops in these systems will be useful for crop and water resource management, and environmental assessment. This work (i) modified the TOMGRO model to simulate N uptake for tomato grown in greenhouses in SE Spain, (ii) modified the PrHo model to simulate transpiration of tomato grown in substrate and (iii) developed an aggregated model combining TOMGRO and PrHo to calculate N uptake concentrations and drainage NO₃⁻ concentration. The component models simulate NO₃⁻-N leached by subtracting simulated N uptake from measured applied N, and drainage by subtracting simulated transpiration from measured irrigation. Three tomato crops grown sequentially in free-draining rock wool in a plastic greenhouse were used for calibration and validation. Measured daily transpiration was determined by the water balance method from daily measurements of irrigation and drainage. Measured N uptake was determined by N balance, using data of volumes and of concentrations of NO₃⁻ and NH₄⁺ in applied nutrient solution and drainage. Accuracy of the two modified component models and aggregated model was assessed by comparing simulated to measured values using linear regression analysis, comparison of slope and intercept values of regression equations, and root mean squared error (RMSE) values. For the three crops, the modified TOMGRO provided accurate simulations of cumulative crop N uptake, (RMSE = 6.4, 1.9 and 2.6% of total N uptake) and NO₃⁻-N leached (RMSE = 11.0, 10.3, and 6.1% of total NO₃⁻-N leached). The modified PrHo provided accurate simulation of cumulative transpiration (RMSE = 4.3, 1.7 and 2.4% of total transpiration) and cumulative drainage (RMSE = 13.8, 6.9, 7.4% of total drainage). For the four cumulative parameters, slopes and intercepts of the linear regressions were mostly not statistically significant (P < 0.05) from one and zero, respectively, and coefficient of determination (r²) values were 0.96-0.98. Simulated values of total drainage volumes for the three crops were +21, +1 and −13% of measured total drainage volumes. The aggregated TOMGRO-PrHo model generally provided accurate simulation of crop N uptake concentration after 30-40 days of transplanting, with an average RMSE of approximately 2 mmol L⁻¹. Simulated values of average NO₃⁻ concentration in drainage, obtained with the aggregated model, were −7, +18 and +31% of measured values.     

Mineral content of three olive cultivars irrigated with treated industrial wastewater

The reuse of saline treated industrial wastewater generated by textile firms mixed with municipal domestic effluent for irrigation was used to asses its effect on the mineral content of three olive (Olea europaea L.) cultivars under greenhouse and field conditions during two complete vegetative cycles. Chemical analysis of the treated wastewater indicated that the element concentrations fall within the permissible range of irrigation water used for plants. However, little impermissible accumulation of Na and Mg higher than the recommended maximum concentration was observed. Irrigation water with six electrical conductivities (EC = 0.78, 1.0, 2.0, 3.0, 4.0 and 5.0 dS m⁻¹ in treatments T₀, T₁, T₂, T₃, T₄, T₅, respectively) were compared in the greenhouse experiment. The olive trees in the field experiment were trickle irrigated with potable water and treated wastewater (average EC = 4.2 dS m⁻¹). The results of the greenhouse experiment showed that leaf N, Cu, Mn, Fe, Pb, and Na contents increased with increasing salinity of the treated wastewater. This increase was accompanied with a decrease in K and Mg contents. Leaf Ca and Cl concentrations were not considerably affected. Ion analysis in roots indicated that the contents of P, Na, Cl, Mn, and Pb increased while K decreased as treated wastewater salinity increased. Consequently, in most cases T₄ and T₅ gave a highly significant increase or decrease in accumulation of the previously mentioned minerals. A considerable variation in the studied cultivars was noticed. ‘Nabali’ was considered the most tolerant cultivar for the high salinity levels of the treated wastewater; its transporting selectivity of Na from root to leaf was higher and more Na was retained in the roots. Tissue analysis of leaves indicated that the element concentrations were within the adequate levels except those of Fe in ‘Nabali’ and ‘Manzanillo’, Na in ‘Improved Nabali’ and Cu in ‘Nabali’ and ‘Manzanillo’. In view of these findings, the negligible accumulation of minerals in leaves and roots indicated that this kind of textile effluent can be used as a valid alternative for irrigation of olive orchards with continuous monitoring of mineral levels.     

不同灌溉和施肥方式对杂交稻生长和根际环境的影响

对杂交稻中优218不同灌溉方式和氮肥管理下水稻生长和根际环境的变化进行研究,结果表明,水稻好气灌溉条件下各施肥处理产量均高于传统灌溉处理,产量比淹水灌溉增产10.5%~11.3%,主要表现在每穗粒数增加而提高产量。好气灌溉与淹水灌溉比较各生育期地上部干物重和叶面积指数均增加,土壤氧化还原电位提高,放线菌数量显著增加。增加有机肥降低土壤氧化还原电位和提高放线菌数量,在好气灌溉条件下施相同氮素有机肥放线菌数多于化肥。     

粳型超级杂交稻辽优3225根系生理特性研究

以粳型杂交稻辽优3225及其亲本和常规品种为材料,在不同生育时期对根系的形态和生理特性进行了研究。结果表明,粳型杂交稻根系粗壮,在根系吸收面积、根系活力、合成氨基酸和吸收无机磷的能力等方面都表现明显的优势,尤以生长前期优势表现更为明显。杂交稻根系衰老较早较快,抽穗后虽然其根系SOD活性较强,但MDA含量迅速上升,衰老严重。     

田间条件下水稻根系分布及其与土壤容重的关系

 采用大田和筒栽方法研究了超高产三系杂交稻协优9308和两系杂交稻两优培九在穗分化期和开花期根系生长和分布及土壤容重对根系分布的影响。结果表明，在田间条件下，土层15 cm内水稻根系占根系总量的89%～98%，深层根系丛间比丛中比例高。不早衰的协优9308根系生长量较两优培九大。土壤容重提高，根系总生长量下降，且深层根系的量和比例下降。就深耕法对水稻根系生长和分布的影响进行了讨论。     

不同灌溉模式对杂交水稻生育后期根系生理特性和剑叶光合特性的影响

对杂交水稻组合红莲优6和两优1193在淹水灌溉和湿润灌溉两种灌溉模式下生育后期的根系和光合生理特性进行了比较分析。结果显示,湿润灌溉增大了水稻根系密度,提高了根系活力,相关分析显示根系密度与根系活力呈正相关(r1=0.66, r2=0.68)。齐穗期剑叶叶绿素含量处理间差异不显著,但成熟期湿润灌溉显著高于淹水灌溉,推测湿润灌溉有利于剑叶功能期的延长和光合速率的提高。湿润灌溉条件下,群体生长率和相对生长率均显著高于淹水灌溉,表明湿润灌溉有利于水稻生殖生长期的干物质积累。上述结果可能是湿灌处理条件下水稻单位面积的产量极显著高于淹灌处理的主要原因。     

强化栽培条件下水稻的根系特征及其与产量形成的关系

以协优527为材料，研究了强化栽培条件下水稻的根系特征及其与产量形成的关系。结果表明，与常规栽培相比，强化栽培能明显增加从分蘖至成熟各生育时期的单株根系干重，降低齐穗后根系中可溶性糖含量，提高生育后期根系的生理活性及磷含量，特别是在籽粒灌浆结实的关键时期，SRI栽培的根系伤流强度明显高于接常规栽培。因此，强化栽培可以延缓后期根系及叶片衰老，提高结实率及千粒重，进而提高产量。