Responses of antioxidant enzyme and photosynthesis in rape seedling to the combined stresses from simulated acid rain and elevated ultraviolet-B radiation

Effects of the simulated acid rain（AR） and ultraviolet-B（UV-B, 280-320 nm） radiation with a single or two ways simultaneously （AR ＋ UV-B） on the antioxidant enzyme and photosynthesis of the rape seedlings were investigated by the hydroponic culture. The results of static experiment indicated that the tolerance of rape seedling to single stress（AR or UV-B） is stronger than that to dual stresses（AR ＋ UV-B）. Furthermore, the dual stresses had additive effect on catalase activity, and a synergistic effect on MDA content, net photosynthesis rate, water use efficiency as well as intercellular CO2 concentration. Meanwhile, it has an independent effect on chlorophyll content, stomatal conductance, and transpiration rate as well as membrane permeability. During 64 h restoration course, the dynamic change in the curves of physiological and biochemical indices were not identical, and none of them show a simple linear variation. According to the static and dynamic experiments, it was found that a responsive sequence of catalase activity, membrane permeability, MDA content and photosynthetic characteristics to the above-mentioned stresses was as follows： AR ＋ UV-B 〉 UV-B 〉 AR.     

Effects of elevated CO2 concentration on growth and water usage of tomato seedlings under different ammonium/nitrate ratios

Increasing atmospheric CO2 concentration is generally expected to enhance photosynthesis and growth of agricultural C3 vegetable crops, and therefore results in an increase in crop yield. However, little is known about the combined effect of elevated CO2 and N species on plant growth and development. Two growth-chamber experiments were conducted to determine the effects of NH4^＋/NO3^- ratio and elevated CO2 concentration on the physiological development and water use of tomato seedlings. Tomato was grown for 45 d in containers with nutrient solutions varying in NH4^＋/NO3^- ratios and CO2 concentrations in growth chambers. Results showed that plant height, stem thickness, total dry weight, dry weight of the leaves, stems and roots, G value （total plant dry weight/seedling days）, chlorophyll content, photosynthetic rate, leaf-level and whole plant-level water use efficiency and cumulative water consumption of tomato seedlings were increased with increasing proportion of NO3- in nutrient solutions in the elevated CO2 treatment. Plant biomass, plant height, stem thickness and photosynthetic rate were 67%, 22%, 24% and 55% higher at elevated CO2 concentration than at ambient CO2 concentration, depending on the values of NH4^＋/NO3^- ratio. These results indicated that elevating CO2 concentration did not mitigate the adverse effects of 100% NH4^＋-N （in nutrient solution） on the tomato seedlings. At both CO2 levels, NH4^＋/NO3^- ratios of nutrient solutions strongly influenced almost every measure of plant performance, and nitrate-fed plants attained a greater biomass production, as compared to ammonium-fed plants. These phenomena seem to be related to the coordinated regulation of photosynthetic rate and cumulative water consumption of tomato seedlings.     

光皮树播种育苗技术

光皮树作为重要的生物柴油树种,省林科院经过多年的研究,已选育出高产新无性系;根据实践总结了光皮树播种育苗技术,包括采种、种子处理、圃地选择、整地作床、播种与苗期管理技术等,并探讨了应用该技术后的育苗效果和育苗过程中应注意的问题．参5．     

淹水对菖蒲(Acorus calamus)根际氧环境的影响

为研究淹水对湿地植物根际氧环境的影响,选择典型湿地植物菖蒲幼苗(株高约15 cm、根长约6 cm)和成株(株高约40 cm、根长约11 cm)在沉积物中培养并完全淹没,利用微型电机控制氧气微光极对菖蒲根中部根际氧浓度及组织内部氧浓度原位测定3周. 结果表明:短期(7 d) 淹水,菖蒲幼苗及成株根际氧扩散层厚度及氧浓度比对照组均显著下降;在淹水第14天,在幼苗根际未检出氧扩散层;在淹水第21天,成株根际氧扩散层厚度及平均氧浓度仍分别为0.34 mm和11.18%,并保持至淹水试验结束. 淹水组菖蒲的根际氧扩散层厚度、平均氧浓度均随根组织内部氧浓度的下降而降低,其中幼苗3个指标分别由初始的0.22 mm、1.4%和50.3%降至0 mm、0%和32.9%,成株分别由0.64 mm、19.3%和64.6%降至0.34 mm、11.2%和55.3%,表明前2个指标的下降程度显著超过后者;淹水组菖蒲幼苗、成株根组织内部氧浓度主要受植株光合作用的影响,而对照组则受光合作用及气体交换作用的共同影响,淹水能在短期(7 d)内促进菖蒲成株根通气组织的发育,使其孔隙率从28.45%升至32.44%,并有助于维持根组织内的氧浓度水平,根组织内部氧浓度淹水组(65.6%)与对照组(67.1%)无显著差异. 研究表明,淹水胁迫下,根组织内部氧浓度水平是影响菖蒲根氧扩散的核心因素,其中幼苗根组织内部氧浓度显著下降并威胁到自身存活时,其已无氧扩散效应,而成株根组织内部较高的氧浓度使其仍能保持一定程度的氧扩散.      

无机离子SO42-对小麦幼苗积累稀土的影响

采用ＭＩＮＴＥＱＡ 程序计算出在无机离子SO₄^2-存在下,轻（Ｌａ）、中（Ｇｄ）、重（Ｙ）３ 种稀土元素在溶液中的形态分布．研究了在水培条件下ＳＯSO₄^2-对３种稀土元素在小麦幼苗根、茎和叶部的积累规律．热力学实验表明,小麦幼苗在加SO₄^2-的稀土元素溶液中培养３０ｄ 后,小麦根部对Ｌａ、Ｇｄ 的积累受抑制,而对Ｙ的积累却明显提高;加入SO₄^2-后茎叶部对Ｌａ、Ｙ积累值改变不明显,但对Ｇｄ的积累有所增加．生长动态实验表明,在SO₄^2-存在下,小麦幼苗根部对稀土的积累随时间增加而增加,其积累值符合线性递增函数方程,相关系数ｒ＞ ０．９４;而茎叶部最初积累能力较强,SO₄^2-的加入对小麦植株动态吸收稀土规律无明显影响．     

CO2倍增对羊草物候和生长的影响

为了研究ＣＯ２倍增对实生苗羊草和移栽羊草的影响,采用开顶式熏气装置进行了ＣＯ２倍增试验。结果表明：２种羊草的ＣＯ２倍增与对照相比,年生长期延长２～７ｄ,其中枯黄期延迟１～７ｄ。ＣＯ２倍增的羊草分蘖株数、成熟穗数、生物量分别为对照的１１９．２％～１４６．３％、１３３．３％～１５７％、１１３．２％～１２７．３％;羊草植株高生长明显增加。ＣＯ２倍增对实生苗羊草物候期的反应比移栽羊草更敏感,移栽羊草抽穗数     

辣子草对3种农作物的化感作用

采用生物测定法,研究了入侵植物辣子草(Galinsoga parviflora Cav.)不同器官、不同浓度水浸提液对水稻(Oryza sativa L.)、小麦(Triticum aestivum L.)、油菜(Brassica napus L)种子萌发和幼苗生长的化感效应。结果表明辣子草存在一定的化感作用。各器官水浸提液对3种作物的影响依种类有差异,辣子草水浸提液在高浓度下对水稻、小麦作物种子萌发、根长和苗高均有明显的抑制作用,对油菜的种子萌发、根长和苗高则是在低浓度下促进高浓度下抑制。辣子草的化感效应为花序>叶>茎>根,表明辣子草的化感物质主要存在于地上部分。     

松果采摘对小兴安岭主要林型红松土壤种子库和幼苗库的影响

为了探讨人为采摘松果对小兴安岭主要林型红松(Pinus koraiensis)土壤种子库和幼苗库的影响,选择阔叶红松林以及与阔叶红松林相邻的红松人工林、落叶松(Larix gmelini)人工林、白桦(Betula platyphylla)林和云冷杉林,各设置10 m×240 m的样带,调查了红松土壤种子库和幼苗库。主要结果如下:①主要林型间红松土壤种子库数量具有明显的差异,阔叶红松林最多,落叶松人工林次之,白桦林最少;②鼠类取食过或被破坏等动物侵害的种子占81.9%～90.4%,完好种子只有在阔叶红松林和落叶松人工林中发现,分别为4.3%和4.9%;③红松种子主要分布在0～10 cm层中(71.4%～91.3%);④红松幼苗库的密度云冷杉林最高(1 613株.hm-2),红松人工林最低(167株.hm-2),其中阔叶红松林(296株.hm-2)和白桦林(854株.hm-2)的幼苗密度分别为采摘前的1/68～1/9和1/9～1/4.5;⑤从龄级分布上看,松果采摘前阔叶红松林低龄级幼苗的数量较多,随着龄级的增大明显减少,呈倒J型分布;白桦林各龄级幼苗密度相差不大。人为采摘松果后,阔叶红松林各龄级间密度相差不大;白桦林呈倒J型分布。     

毒死蜱在小麦植株及土壤环境中的残留特性

通过盆栽试验,利用固相萃取和气相色谱氮磷检测器分析方法研究了有机磷农药毒死蜱在小麦植株及其生长土壤中的残留特性. 结果表明:毒死蜱在小麦植株中的降解较快,施药21 d降解率均已超过99%,其中分蘖期比拔节期降解更快,施药14 d降解率已达99.56%,降解规律用指数方程拟合得不够好;毒死蜱在盐碱土中的降解比在通常的生长土壤中快得多,平均半衰期为11.04 d,其中在拔节期比在分蘖期土壤中降解快,降解规律符合指数方程. 毒死蜱在低浓度下降解的半衰期相对更长.      

沼液浸种对水稻种子萌发及幼苗生长的影响

为探讨沼液对水稻早期萌发和幼苗生长的影响,以不同浓度沼液对日本晴水稻(Oryza sativa)种子浸种24 h后催芽,分析其种子萌发及幼苗生长情况.结果表明,2％沼液浸种可增加水稻幼苗根数和芽生物量,但降低了幼苗根生物量,该浓度沼液浸种对种子萌发率、萌发速率、幼苗芽长、茎粗及总根长没有显著影响(P＞0.05).更高浓度的沼液浸种对水稻种子萌发和幼苗生长均产生抑制作用.沼液浸种对根生物量的影响大于芽生物量,从而导致各浓度沼液处理组芽/根生物量比值均大于对照.对呼吸速率的分析结果进一步佐证了沼液处理对萌发后期水稻种子具有不利影响.建议水稻早期生产中慎用沼液.