氮肥对受践踏胁迫结缕草草坪恢复生长的影响

以日本结缕草草坪为试材,采用田间试验,研究在不同践踏胁迫下,施用氮肥对草坪生长的影响。结果表明,施氮肥有利于受践踏草坪的恢复生长,在不同程度践踏胁迫下,施氮素8 g/m2,可不同程度地增加草坪的密度、株高生长量和地上生物量;总叶绿素含量比对照明显增加。     

正交试验法分析环境因子对苦草生长的影响

苦草(Vallisneria natans),是我国长江中下游淡水水体中常见的沉水植物种类。通过室内模拟正交试验的方法,研究不同光照强度、温度和总氮浓度(3光照×3温度×3总氮浓度)对苦草生长的影响。结果表明:(1)苦草在5320lx光照强度、10℃、2—4mg/L水体总氮浓度的条件下生长良好。实验所设100%(12000lx)和50%(5320lx)光照条件下苦草均可正常生长;但对于30℃的高温胁迫耐受性较差;苦草在总氮浓度为4mg/L的水体中各生长指标达到最大值,2mg/L或8mg/L的总氮浓度均会抑制其生长。(2)5320lx的光照强度和10℃的温度对苦草光合色素的合成较为有利;而单纯总氮浓度的变化对苦草光合色素的合成影响不大。(3)苦草的生理活性在高于12000lx或低于1025lx的光强、高于30℃的温度以及8mg/L的总氮浓度下均会受到一定程度的抑制。(4)方差分析结果显示,苦草生长发育的过程中,光照强度和温度是主效环境因子;上述3个环境因子对苦草光合色素的合成均有极显著的影响,并且光强与温度的交互作用对其也有显著影响;光照强度、温度以及这两个环境因子的交互作用为影响苦草生理活性的主效因子。苦草作为不能形成冠层的基生叶莲座型沉水植物,对光强要求不高,对低温的耐受性较好,但较不耐高营养盐浓度,因此,在得到一定修复的富营养化水体中,可以作为秋、冬季水生植物恢复和重建的关键物种。     

温度升高对高光强环境下蛋白核小球藻(Chlolorella pyrenoidosa)光能利用和生长的阻抑效应

以蛋白核小球藻（Cholorella pyrenoidosa）为实验材料,研究了温度变化对不同光照水平下蛋白核小球藻的光能利用和生长的影响,以明确光照强度对微藻的光能利用和生长的影响是否因温度不同而发生变化。实验中共设置了3个光照强度水平（50,150,300μmol·m^-2s^-1）和2个温度水平（15℃,25℃）。实验结果表明,不同光照水平下小球藻叶绿素荧光的非光化学淬灭（NPQ）大小与温度有关,光照强度为150,300μmol·m^-2s^-1时,温度升高使小球藻叶绿素荧光NPQ提高,并且光照强度越高小球藻叶绿素荧光NPQ增大越多,50μmol·m^-2s^-1光照强度下温度升高对叶绿素荧光NPQ没有影响。实验发现,25℃培养温度下小球藻的光合电子传递速率（ETR）随光照强度增高而上升的速率要低于15℃时小球藻ETR上升的速率;随着光照强度增高,温度升高使小球藻ETR降低程度增大。实验结果还表明,15℃时小球藻培养液叶绿素a浓度随光照强度升高而增高,300μmol·m^-2s^-1培养光强下具有最高的叶绿素a浓度。但在25℃时,光照强度升高叶绿素a浓度并不一定增高,300μmol·m^-2s^-1光照强度下的叶绿素a浓度比150μmol·m^-2s^-1光照强度下要低。本研究表明,温度升高增大了高光照水平下蛋白核小球藻对光能的热耗散,使光照增强对小球藻生长的促进作用减弱。由于温度升高对小球藻光能利用和生长的阻抑作用,小球藻生长的适宜光照水平因温度升高而降低。     

不同光照强度和底质营养对三种沉水植物的影响

沉水植物的生长不但与光照强度的关系密切, 也受底质营养的影响, 因此研究光照强度和底质营养两种环境因子的共同作用对沉水植物的影响尤为重要。本文选择轮叶黑藻(Hydrilla verticillata)、苦草(Vallisneria natans L.)和大茨藻(Najasmarina L.)3 种沉水植物为研究对象, 设置3 种光照强度(高、中、低)和2 种底质营养(高、低)处理, 通过测定植物生长指标(生物量和叶绿素)及水质指标(水体溶氧量和pH)的变化反映光照强度与底质营养对三类沉水植物生长的影响。结果表明: (1)高底质营养处理促进了三种沉水植物的生长, 生物量、叶绿素含量、水体溶氧量和pH 均高于低底质营养处理组。(2)高底质营养处理组中, 轮叶黑藻在中光照强度处理下其生物量最高为4.87 g, 苦草在低光照强度处理下生物量最高为3.13 g, 大茨藻在高光照强度处理下生物量最高为4.71 g, 相应的叶绿素含量和水体溶氧量也都达到了最大值。因此根据修复湿地环境中的光照和底质条件, 因地适宜的选择沉水植物必须研究各种沉水植物不同的生态影响因子。     

两种本地植物种子萌发对飞机草的化感耐受性及其相互竞争

为探讨本地物种假地豆和白饭树对入侵植物飞机草的替代控制潜力,利用培养皿法和同质园种植实验分别研究了两个本地物种种子萌发对飞机草的化感耐受性及其与飞机草的竞争关系。结果显示:除了假地豆的萌发率在高浓度(2.5%)的飞机草叶提取液下受到显著抑制外,两个本地种的萌发在不同浓度飞机草根、茎、叶提取液下均不受抑制。飞机草与假地豆混种时,飞机草的株高、地下生物量比及根冠比显著降低,假地豆的株高无显著变化,但生物量显著增加;飞机草的竞争参数相对产量(RY)显著小于1,竞争攻击力系数显著小于零,表明其竞争力弱于假地豆。飞机草与白饭树混种时,飞机草的根冠比也显著降低,但株高和生物量均显著增加,而白饭树的株高和生物量却显著降低;飞机草的相对产量(RY)显著大于1,竞争攻击力系数显著大于零,表明其竞争力强于白饭树。结合以上结果,本地植物假地豆可以一定程度上竞争抑制飞机草的生长,具有替代控制飞机草的潜力,而白饭树可以在清除飞机草后的入侵地辅助植被修复。实验结果为飞机草替代控制的目标物种的筛选提供了科学依据,对被飞机草入侵生境生物多样性的恢复和重建具有一定指导意义。     

热胁迫后施用氮肥和秸秆对土壤微生物生物量及功能的影响

研究了热胁迫(40℃,18 h)后在60 d培养期内不施物料(S)、仅施尿素(N)、仅施秸秆(R)和二者配施(RN)处理下土壤微生物生物量及土壤功能(基础呼吸、基质诱导呼吸、秸秆分解能力)的变化.结果表明:热胁迫有促进土壤微生物生物量及功能的趋势,但其影响弱且持续时间短.不论热胁迫与否,与不施物料和仅施氮肥处理相比,施用秸秆及其与氮肥配施处理下土壤微生物生物量、基础呼吸、基质诱导呼吸和秸秆分解能力均大幅提高,而单施氮肥处理与不施物料处理相比变化不明显,各项指标甚至有降低趋势.表明施用秸秆及其与氮肥配施对自然土壤和环境胁迫(干扰)后土壤功能都有改善作用.     

胶孢炭疽菌婆婆纳专化型侵染波斯婆婆纳的影响因子的研究

通过盆栽试验,研究了真菌自身生物学特性、杂草生长状况和环境因素等对胶孢炭疽菌婆婆纳专化型菌株QZ－97a侵染波斯婆婆纳的影响。结果表明,子叶期和衰老斯波斯婆婆纳感病性最强;培养7－14d后的孢子侵染力最强;病害发生的最佳温度范围是15－25℃;在保湿2－3d的条件下,露期中间的光照时间越短,病害发生越严重;保湿也可通过添加玉米粉和黄粉等介质来解决;达到理想致病效果的该菌株孢子悬浮液浓度必须在10^7个.ml^-1以上,由此可见,菌株QZ－97a在波斯婆婆纳发生时期的环境条件下可有效控制该杂草。     

光照强度对六种草地植物种子萌发和幼苗生长的影响

光是影响种子萌发和幼苗生长的环境因素之一, 光照强度具有日动态和季节动态, 对植物出土和光合物质积累有重要影响。通过室内控制实验, 研究松嫩草地六种植物种子萌发及幼苗生长对光照强度的响应, 对深入理解松嫩草地植物生活史早期阶段的适应策略具有重要意义。研究结果表明: 防风(Saposhnikovia divaricate)、角蒿(Incarvillea sinensis)和黄金菊(Hypochaeris grandiflora)种子萌发率不受光照强度影响, 反枝苋(Amaranthus retroflexus)、大果琉璃草(Cynoglossum divaricatum)和紫菀(Aster tataricus)在弱光或中等光照下种子萌发率最高。六种种子的萌发指数在中等光强下最大, 且与无光处理间差异显著。除大果琉璃草和反枝苋在中等光强或弱光下胚根生物量最大外, 角蒿、防风、黄金菊、紫菀均在较强光下胚根生物量最大, 无光下最小; 大果琉璃草、黄金菊、防风、反枝苋的地上生物量不受光照强度影响, 而角蒿、紫菀在较强光下地上生物量最大; 角蒿和大果琉璃草在弱光或中等光强下根冠比最大, 防风、黄金菊、紫菀、反枝苋均在较强光下根冠比最大; 萌发率和萌发指数与种子大小之间没有显著相关性, 幼苗地上和胚根生物量与种子重量成显著正相关关系。光照强度对萌发率和种子大小之间的关系无显著影响, 但胚根生物量与种子大小之间关系的斜率受到光照强度影响, 中等光强下斜率最大。因此, 中等光照条件有利于松嫩草地植物种子萌发和幼苗建植。     

辽河下游平原不同水分条件下稻田氨挥发

应用通气密闭室法,研究了辽河下游平原不同水分条件下潮棕壤稻田生态系统施用氮肥后的NH3挥发.结果表明稻田施用氮肥后有明显NH3挥发损失,整个生长期间总挥发量为11.64～34.01 kg N·hm-2,占施氮量的4.66%～11.66%;不同施肥时期的损失量为分蘖期＞孕穗期＞移栽前,挥发高峰出现在施氮肥后的2～4 d内.稻田水分状况对NH3挥发损失具有重要影响,田面积水条件下NH3挥发总量和肥料氮损失率都较大,且不同施氮水平间差异显著(P＜0.05),挥发量随施氮量的增加而增加;田面不积水条件下NH3挥发量相对较小.氮肥用量、田面水NH4 浓度和pH是影响NH3挥发的重要因素;氮肥用量为180 kg N·hm-2时,不同磷水平对NH3挥发的影响不显著.     

施肥水平对金钱草产量和质量的影响

本文在大田实验中采用随机区组方式,探讨了不同氮肥、磷肥、钾肥和有机肥的施肥水平对金钱草产量和质量的影响。研究结果显示,在施用磷肥和钾肥一致的基础上,施用氮肥为60 g/6 m~2时金钱草产量达6.67±0.31 kg,与对照(4.09±0.43 kg)呈显著水平。在施用氮肥和磷肥一致的基础上,施用钾肥为30 g/6 m~2时金钱草的产量(9.28±0.42 kg)与对照(7.10±0.50 kg)比较呈显著性差异。随着有机肥施用量的增加,金钱草的产量有减产趋势,在1.8 kg/6 m~2时与对照比较呈显著差异;磷肥对金钱草产量无显著影响。施用氮肥、磷肥、钾肥和有机肥均对金钱草山奈酚和槲皮素含量无显著影响。     

光照强度和氮水平对白三叶幼苗生长与光合生理特性的影响

采用植物生长箱溶液培养方式,对白三叶幼苗进行了不同光强(2个水平)和氮浓度(5个水平)处理,探讨其生长、生物量和光合生理特征对生境变化的响应.结果表明:两种光强下白三叶幼苗茎和叶生物量随氮素浓度呈先升高后降低,而根系生物量和根冠比则随氮素浓度增高而降低.光照强度降低使白三叶幼苗根、茎、叶和整株生物量分别降低67.8%、29.9%、42.5%和45.2%;低光处理使幼苗的根冠比显著下降,而比叶面积(SLA)明显提高.幼苗根系体积随氮素浓度增高而降低,高生长光强根系体积显著高于低生长光强下的白三叶.幼苗根系表面积、根系长度和根系直径随氮素浓度增加呈先增加后降低趋势,两种不同生长光强下幼苗根系长度和根系直径差异显著,而根系表面积差异不明显.白三叶叶片光合速率(Pn)随氮素浓度增加呈先增加后降低趋势,高生长光强白三叶Pn显著高于低生长光强下的白三叶.两种生长光强间叶片气孔导度(Gs),胞间CO2浓度(Ci)和蒸腾速率(Tr)无显著差异,但氮素浓度对叶片Gs、Ci和Tr均有显著影响.光、氮及其交互作用对白三叶幼苗生长发育产生了显著影响,光照不足和氮缺乏都将导致白三叶幼苗生长减弱,但幼苗对这些不利环境具有较强的调节和适应能力.     

Effects of light and nutrient availability on dry matter and N allocation in six successional grassland species

Summary Recent discussions on determinants of competitive success during succession require the study of the combined effect of light and nutrient availability on growth and allocation. These effects can be used to predict the outcome of competition at changing resource availabilities. This work is part of a study on the successional sequence in permanent grassland starting after fertilizer application is stopped, but with continued mowing, in order to restore former species-rich communities. This yields a successional sequence which proceeds from grasslands with a high nutrient availability and a closed canopy, to grasslands with a low nutrient availability and an open canopy. If allocation is related to competitive ability, species from the productive stages would be expected to allocate more biomass and nitrogen to leaves, which could make them better competitors for light, while species from the unproductive stages would allocate more biomass to roots, which could make them better nutrient competitors. This study reports on growth, specific leaf area (SLA), vertical display of leaves, and allocation of biomass and nitrogen of six grassland species from this successional sequence at 16 combinations of light and nutrient supply. Species from the poorer successional stages reached a lower final dry weight than species from the richer stages, over all treatment combinations. The experimental design made it possible to test for unique effects of the resource ratio effect of light and nutrients on allocation characteristics. This resource-ratio effect was defined as the ratio light intensity/(light intensity + nutrient supply rate), using standardized levels for the treatments. The within-species variation (plasticity) in both allocation of dry matter and nitrogen was linearly related to this resource-ratio effect. Some interspecific differences in this relationship were found which could be related to the position of the species along the successional gradient. However, the range of plasticity in allocation pattern expressed within each species was much larger than the differences between species. It was concluded that allocation differences between these grassland species are relatively unimportant, given the large amount of plasticity in these traits. Interspecific differences in SLA and vertical stature seemed to be more important in explaining the position of species along the successional gradient.     

不同光强下高锰对黄瓜光合作用特性的影响

采用营养液培养的方法,研究了不同光强下高锰对黄瓜植株生长、叶绿素含量、叶绿素荧光参数和光合作用的影响.结果表明,高锰处理抑制了黄瓜植株的生长,与弱光处理相比强光下抑制幅度更加显著.强光下,高锰处理显著降低叶绿素含量,但降低光强却增加其含量.强光下,高锰处理显著降低原初光能转换效率(F_v/F_m)、光合电子传递量子效率(ΦPSII)和光化学猝灭系数(qP);弱光下,高锰处理对F_v/F_m和qP无显著影响.高锰处理使净光合速率(P_n)和气孔导度(G_s)下降.尤其是在强光下下降幅度更大.高锰处理使细胞间CO₂浓度(C_i)在强光下升高,而在弱光下则下降.与C_i相反,高锰处理使气孔限制值(L_s)在强光下下降,而在弱光下上升.因此,强光下高锰胁迫使净光合速率下降可能是由非气孔限制引起的,而弱光下高锰处理使净光合速率下降可能是由气孔因子限制引起的.     

Energy--dependent bacterivory in Ochromonas minima--a strategy promoting the use of substitutable resources and survival at insufficient light supply

Phagotrophy and competitive ability of the mixotrophic Ochromonas minima were investigated in a three-factorial experiment where light intensity (low: 1.0 micromol m(-2)s(-1) and high: 60 micromol m(-2)s(-1) PPFD), nutrient concentration (ambient: 7.0 micromolNl(-1), 0.11 micromol P l(-1) and enriched: 88 micromol N l(-1), 6.3 micro mol P l(-1)) and DOC supply (without and with enrichment, 250 micromol C l(-1)) were manipulated. Ochromonas minima and bacterial abundance were monitored for 12 days. We found significant and interacting effects of light and nutrients on Ochromonas minima growth rate and abundance. At high light intensity, nutrient enrichment resulted in increased growth rates and population sizes. In contrast, reduced growth rates and population sizes were observed for nutrient enrichment when light intensity was low. Although, Ochromonas minima was able to ingest bacteria under both high and low light conditions, it grew only when light intensity was high. At high light intensity, Ochromonas minima grew exponentially under nutrient conditions that would have been limiting for photoautotrophic microalgae. In non-enriched low light treatments, Ochromonas minima populations survived, probably by using background DOC as an energy source, indicating that this ability can be of relevance for natural systems even when DOC concentrations are relatively low. When competing with photoautotrophic microalgae, the ability to grow under severe nutrient limitation and to survive under light limitation should be advantageous for Ochromonas minima.     

The Effects of Light and Temperature on Germination and Growth of Luffa aegyptiaca

The effects of light and temperature on the germination and growth of Luffa aegyptiaca were investigated both in the laboratory and in the field. The seeds germinated in both darkness and light but germination was better in the light. At constant temperatures germination was best at 21°C, while alternating temperatures of 21 and 31°C and 15 and 41°C caused higher germination than the most favourable constant temperature. Constant temperatures of 15 and 31°C and alternating temperatures of 21 and 41°C resulted in very low germination, whereas no germination occurred at 41°C and at alternating temperatures of 31 and 41°C. Soil depth caused only a delay in seed germination, as it did not affect the total germination. High temperature and high light intensity resulted in good seedling growth in terms of dry weight, leaf area and relative growth rate. High temperature and low light intensity caused increased plant height and high shoot weight ratio, both of which manifested in seedling etiolation. They also caused high leaf area ratio. Under low temperatures, irrespective of light intensity, growth was generally poor, but it was significantly poorer under low light intensity, which also caused high root weight ratio. High light intensity was principally responsible for high leaf weight ratio. The results help to explain the abundance of the species in newly cleared areas in Lagos and its environs.     

Nitrogen partitioning in the photosynthetic apparatus of Plantago asiatica leaves grown under different temperature and light conditions: similarities and differences between temperature and light acclimation

Effects of growth temperature and irradiance on nitrogen partitioning among photosynthetic components were studied. Plantago asiatica was grown under different temperature and light conditions. Growth conditions were regulated such that the Chl a/b ratio in leaves grown at a low temperature with a low irradiance was similar to that in leaves grown at a high temperature with a high irradiance, suggesting that the balance between acquisition and utilization of light energy in the photosynthetic apparatus was similar between the two growth conditions. When plotted against the leaf nitrogen content, the RuBP (ribulose-1,5-bisphosphate) carboxylase content did not significantly differ depending on growth conditions. Both high irradiance and low temperature decreased nitrogen partitioning to Chl-protein complexes. Low temperature increased nitrogen allocation to stroma FBPase (fructose-1,6-phosphatase) irrespective of growth irradiance. Gas exchange measurement indicated that the ratio of the electron transport (J(max)) to the maximum carboxylation rate (V(cmax)) was not affected by growth irradiance but by growth temperature. It is concluded that nitrogen partitioning between acquisition and utilization of light energy responds to both growth temperature and irradiance, while nitrogen partitioning between carboxylation and regeneration of RuBP responds only to growth temperature.     

光强及氮浓度对丝状绿藻双星藻生长及生化组成的影响

[背景]环境因子和营养因子对微藻的生长和生化组成都有显著的影响,其中光强和氮浓度是最重要的两个条件。[目的]研究不同光强和初始氮浓度对丝状绿藻-双星藻(Zygnema sp.)生长及生化组成的影响。[方法]采用改良的BBM培养基,设置了两组光强[100μmol/(m^2·s)和300μmol/(m^2·s)]和6种初始氮浓度(3、6、9、12、15和18 mmol/L)在柱状光生物反应器中对双星藻进行培养。[结果]在高光强条件下[300μmol/(m^2·s)],12 mmol/L初始氮浓度最有利于双星藻生物质的积累,其最高生物量可以达到6.60 g/L,而初始低氮浓度(3 mmol/L)则促进了油脂和脂肪酸的积累,油脂最高含量占干重的32.13%,且脂肪酸组成主要包括棕榈酸(C16:0)、油酸(C18:1)、亚油酸(C18:2)和亚麻酸(C18:3),其中油酸含量最高达到总脂肪酸含量的55.01%;在低光强条件下[100μmol/(m^2·s)],初始氮浓度为18 mmol/L时,总蛋白质和总碳水化合物的含量达到最高,分别占干重的16.35%和37.70%,而总脂含量仅占干重10.16%。[结论]光强和初始氮浓度对双星藻生长具有较大影响,通过调节光强和初始氮浓度可有效提高双星藻目标代谢产物的积累。     

Photosynthetic acclimation of plants to growth irradiance: the relative importance of specific leaf area and nitrogen partitioning in maximizing carbon gain

Changes in specific leaf area (SLA, projected leaf area per unit leaf dry mass) and nitrogen partitioning between proteins within leaves occur during the acclimation of plants to their growth irradiance. In this paper, the relative importance of both of these changes in maximizing carbon gain is quantified. Photosynthesis, SLA and nitrogen partitioning within leaves was determined from 10 dicotyledonous C₃ species grown in photon irradiances of 200 and 1000 µmol m^?2 s^?1. Photosynthetic rate per unit leaf area measured under the growth irradiance was, on average, three times higher for high‐light‐grown plants than for those grown under low light, and two times higher when measured near light saturation. However, light‐saturated photosynthetic rate per unit leaf dry mass was unaltered by growth irradiance because low‐light plants had double the SLA. Nitrogen concentrations per unit leaf mass were constant between the two light treatments, but plants grown in low light partitioned a larger fraction of leaf nitrogen into light harvesting. Leaf absorptance was curvilinearly related to chlorophyll content and independent of SLA. Daily photosynthesis per unit leaf dry mass under low‐light conditions was much more responsive to changes in SLA than to nitrogen partitioning. Under high light, sensitivity to nitrogen partitioning increased, but changes in SLA were still more important.     

金花茶叶片性状对不同光环境梯度的响应

金花茶叶片对光环境变化的响应包括质量性状和数量性状的变异。对广西南部金花茶的5个自然种群的光环境及其叶片数量性状等进行观测研究。结果显示:光照强度影响金花茶叶长和叶宽生长间的相关性,当相对光强20‰时,叶片长宽增长具有显著相关性,相关系数≥0.85;在相对光强≥20‰的环境中,相关系数明显变小,相关性不显著;低光照强度下金花茶倾向于形成短窄型叶片,高光照强度则使其倾向于形成长阔型叶片。并对该研究揭示的这种叶片数量性状变异规律在金花茶保护中的应用前景进行了探讨。     

杉木种子萌发及幼苗生长对光强的响应

设置不同光强梯度(透光率分别为100%、40%、20%、10%和5%,光照强度PPFD分别为201.3、77.0、37.5、19.2、9.8 μmol·m^-2·s^-1),研究光对杉木种子萌发和幼苗早期生长的影响,分析杉木种子萌发、幼苗存活、生长、形态响应、生物量积累及其分配格局对不同光环境的响应策略.结果表明: 杉木种子的萌发率、存活率、建植率和萌发指数在不同光强梯度下均有显著差异,且40%的透光率是种子最适萌发条件,萌发率最高,而全光照下存活率和建植率最高;随光照强度的减弱,杉木幼苗茎长增大,根长、子叶长、子叶厚、真叶数呈降低趋势,而基径在各光照强度间无显著差异;总生物量、根生物量、茎生物量、叶生物量均表现为全光照下最大.随着光照强度的减弱,光合组织与非光合组织生物量比、叶生物量比呈降低趋势,茎生物量比呈增加趋势,根冠比和根生物量比无显著差异.弱光环境促进杉木种子萌发,不利于杉木幼苗存活和生长.在弱光环境下,杉木幼苗通过增大茎生物量来提高对弱光环境的耐受力.