Effects of CO2 and photosynthetic photon flux on yield, gas exchange and growth rate of Lactuca sativa L. 'Waldmann's Green.'

Enrichment of CO2 to 46 mmol m-3 (1000 mm3 dm-3) at a moderate photosynthetic photon flux (PPF) of 450 micromoles m-2 s-1 stimulated fresh and dry weight gain of lettuce leaves 39% to 75% relative to plants at 16 mmol m-3 CO2 (350 mm3 dm-3). Relative growth rate (RGR) was stimulated only during the first several days of exponential growth. Elevating CO2 above 46 mmol m-3 at moderate PPF had no further benefit. However, high PPF of 880-900 micromoles m-2 s-1 gave further, substantial increases in growth, RGR, net assimilation rate (NAR) and photosynthetic rate (Pn), but a decrease in leaf area ratio (LAR), at 46 or 69 mmol m-3 (1000 or 1500 mm3 dm-3) CO2, the differences being greater at the higher CO2 level. Enrichment of CO2 to a supraoptimal level of 92 mmol m-3 (2000 mm3 dm-3) at high PPF increased leaf area and LAR, decreased specific leaf weight, NAR and Pn and had no effect on leaf, stem and root dry weight or RGR relative to plants grown at 69 mmol m-3 CO2 after 8 d of treatment. The results of the study indicate that leaf lettuce growth is most responsive to a combination of high PPF and CO2 enrichment to 69 mmol m-3 for several days at the onset of exponential growth, after which optimizing resources might be conserved.     

陶粒覆盖对土壤水分、植物光合作用及生长状况的影响

以河北省廊涿高速公路中央隔离种植槽为研究地点,探讨陶粒覆盖对土壤水分、植物光合作用及生长状况的影响,结果表明:(1)陶粒覆盖有效地提高了土壤含水量,减弱了不同土层、不同月份之间的差距,两层覆盖(M2)效果要好于一层覆盖(M1)。从10-60 cm土层,陶粒覆盖对土壤含水量的影响逐渐降低,裸露地面的土壤含水量和陶粒覆盖下的土壤含水量的差距逐渐减弱。越是干旱季节,陶粒覆盖保水效果越明显;(2)陶粒覆盖对月季、大叶黄杨的净光合速率(P_n)、蒸腾速率(T_r)、水分利用效率(WUE)均产生了影响。两植物一天当中任何测量时刻的P_n均为M2>M1>MD(裸地)。陶粒覆盖也提高了月季、大叶黄杨的T_r日均值,使其日变化峰值出现时间发生变化。陶粒覆盖对WUE影响要远远小于对P_n、T_r的影响,相互之间差异均不显著。由于大叶黄杨的抗旱性较差,陶粒覆盖对大叶黄杨光合特性的影响大于对月季的影响。(3)陶粒覆盖大大提高了紫叶小檗、侧柏、小叶黄杨、大叶黄杨、月季5种植物的成活率,增加了植物的地径、株高增长量,M2的效果均好于M1。     

Interactive effects of arbuscular mycorrhizal symbiosis, intraspecific competition and resource availability on Trifolium subterraneum cv. Mt. Barker

We performed two glasshouse experiments to determine whether the presence of arbuscular mycorrhizal symbiosis reduces the intensity of intraspecific competition at low concentrations of available phosphorus (P), and whether this effect is modified by a reduction in light intensity. In the first experiment, Trifolium subterraneum cv. Mt. Barker was grown at different densities in controlled conditions of light and temperature, and half of the pots were inoculated with spores of the arbuscular mycorrhizal fungus, Gigaspora margarita . In the second experiment, the plants were grown in similar controlled conditions but the light intensity received by half of the pots was reduced by >50%. The biomass and P content of individual mycorrhizal plants and the biomass response to mycorrhizal infection were drastically reduced as plant density increased. The effects of density on percentage infection, shoot and root P concentrations, and root: shoot ratios were inconsistent. Generally reduction in light intensity did not alter these effects. Mycorrhizal symbiosis increased intraspecific competition intensity through an increase in the availability of soil P. This increase in competition was reflected in the greater size inequality of low density mycorrhizal treatments. Our results emphasize that the main effects of mycorrhizas at the individual level cannot be expected to be apparent at the population level, because they are overridden by density-dependent processes.     

Effects of far-red light on the growth,mycorrhizas and mineral nutrition of Scots pine seedlings

The effects of supplementary far-red sidelight on the formation of mycorrhizas and on the accumulation and allocation of dry weight and mineral nutrients were studied in Scots pine (Pinus sylvestris L.) seedlings. Starting one week after germination the seedlings were subjected to two different light quality regimes: control and simulated sparse-canopy conditions (FR+). In the FR+ regime, light reflected by neighbouring plants was simulated by means of supplementary far-red light sources, which reduced the horizontal red/far-red photon ratio (R:FR) without affecting PAR. Seedlings were harvested after three months of treatment. FR+ increased stem height and decreased the total dry weight of seedlings. Dry weight allocation to needles was not affected, whereas dry weight allocation to roots was reduced and that to stems was increased in FR+ treated seedlings. The total number of short root tips and developing mycorrhizas per seedling were lower in FR+ than in control plants. Most short roots were developing mycorrhizas, while non-mycorrhizal short roots and mycorrhizas with mantle or external mycelium were very scarce. Changes in the allocation of nutrients in general followed the changes in dry weight allocation, and changes in nutrient content followed those in total dry weight. However, mismatches among these changes resulted in significant changes in nutrient concentrations in some organs: the concentrations of nitrogen and potassium in needles and the concentration of nitrogen in stems were higher in FR+ than in control seedlings. Changes in biomass and nutrient allocation under low R:FR may promote rapid height growth during early development in stands of Scots pine seedlings, but concomitant reductions in growth of the root system and mycorrhizas may negatively affect tree performance over the long term.     

二氢血根碱对莴苣幼苗根生长及其细胞分裂的影响

以莴苣幼苗为受体,用培养皿法检测从细果角茴香中分离得到的二氢血根碱对莴苣幼苗根生长和根毛发育的影响,并采用根尖细胞有丝分裂检测和单细胞凝胶电泳法对其可能的作用机制进行了初步研究.结果显示:较低浓度(25、50μmol/L)二氢血根碱能显著促进莴苣根的生长,较高浓度(200、300μmol/L)二氢血根碱显著抑制根的生长;二氢血根碱(10、20、30、40、50μmol/L)对莴苣幼苗根毛发育有极显著的抑制作用,且两者均表现了浓度依赖性.较低浓度(25、50μmol/L)二氢血根碱使根尖细胞有丝分裂指数显著增加,而对根尖细胞DNA没有显著影响;较高浓度(200、300μmol/L)二氢血根碱使根尖细胞有丝分裂指数显著下降,同时根尖细胞DNA受到显著性损伤.研究发现,低浓度的二氢血根碱对莴苣幼苗根生长的促进作用主要是由于根尖细胞有丝分裂活力增加所致;而高浓度二氢血根碱对莴苣幼苗根的抑制作用极可能是由于根尖细胞DNA受到损伤,使得细胞分裂活力降低,分裂期细胞数目减少,从而导致根生长受到抑制.     

Effects of sulphur nutrition on nitrogen and carbon metabolism in lucerne (Medicago sativa L.)

Studies were conducted with one-year-old plants of the perennial legume, lucerne ( Medicago sativa L.), to determine the effects of various levels of S (0.3, 1.5, and 7.5 m M ) on N₂-fixation, photosynthesis, herbage free amino acid pools and protein amino acids, levels of protein, and activities of key enzymes of leaf nitrogen and carbon metabolism. Sulphur deficiencies in the 0.3 m M S treatment, as determined by N:S ratios, did not appear until the second growth cycle. This treatment was severely S-deficient by the end of the third growth cycle. Sulphur deficiencies did not occur in the other two treatments over three cycles of growth. By the middle of the second growth cycle acetylene reduction rates of plants grown with 0.3 m M S were lower than those of other treatments. At the end of the third growth cycle acetylene reduction rates of the 0.3 m M S treatment were ca . 30–35% that of the other treatments. There was no effect of S-deficiency on photosynthesis, levels of leaf NADP-isocitrate dehydrogenase and glutamine synthetase activity, or concentrations of leaf protein over the course of the experiments. Levels of NAD-glutamate dehydrogenase, NAD-malate dehydrogenase, and glutamate oxaloacetate trans-aminase activity and concentrations of free methionine, arginine, urea, and ammonia increased, with S-deficiency. Boron concentrations were very high (ca. 300 μg/g dry wt.) in S-deficient plants. The mole percent methiomne in leaf protein decreased slightly and chlorophyll concentration decreased markedly with S-deficiency. This study suggests that N₂-fixation is affected early during S-deprivation of lucerne and that subsequent effects of S-deficiency may be due to loss of fixed nitrogen.     

Effects of enhanced UV-B radiation and nitrogen deposition on the growth of invasive plant Triadica sebifera

Aims Exotic plant invasions are important components of global change, threatening both the stability and function of invaded ecosystems. Shifts in competitive ability of invasive plants versus their native congeners have been documented. Enhanced UV-B radiation and nitrogen (N) deposition might interact with soil biota communities impacting the invasion process of exotic plant species. To understand the potential effects by UV-B and N with soil biota on plant growth would enhance our understanding of the mechanisms in plant invasions in the context of global change.
Methods We conducted a full-factorial pot experiment in the native range (China) of Triadica sebifera invading US to investigate how UV-B radiation, N and soil biota together determined their seedling growth.
Important findings The results showed that UV-B radiation, N and soil sterilization together impacted the growth of T. sebifera seedlings. UV-B radiation induced changes in biomass allocation with larger leaf biomass observed in response to UV-B radiation. In addition, N increased aboveground biomass and decreased root biomass simultaneously. Soil biota imposed positive effects on growth of T. sebifera, and the addition of N amplified these positive effects. The negative effects by UV-B radiation on growth of T. sebifera showed no response to N addition. Plant height, leaf biomass and total biomass of the invasive T. sebifera populations out- performed those of the native ones. In addition, invasive T. sebifera populations weakened the dependence of root/shoot ratio and root biomass on local soil microorganisms than native populations, but enhanced that of leaf area ratio.     

Effects of arbuscular mycorrhizal fungi on Solidago canadensis growth are independent of nitrogen form

丛枝菌根真菌对加拿大一枝黄花生长的影响不受氮形态的调节 越来越多的研究结果表明,入侵植物能通过改变土壤真菌群落直接或间接的促进自身生长。土壤氮含量高低影响植物与丛枝菌根真菌(AMF)的共生关系,进而影响植物生长。然而,氮形态是否会改变入侵植物- 相互作用,以及被改变的AMF群落是否影响入侵植物和本地植物对不同氮形态的依赖性尚未可知。鉴于此,本研究以加拿大一枝黄花(Solidago canadensis)为研究对象,结合野外驯化和室内接种实验,探讨了群落水平上该入侵植物的生长,以及入侵植物-AMF相互作用对不同形态氮添加的响应。首先,选择30对加拿大一枝黄花入侵群落和相近的非入侵群落,并用湿筛法从土壤中获取入侵AMF孢子和非入侵AMF孢子,同时构建两种人工群落：加拿大一枝黄花群落(N = 4)和本地植物群落(N = 4);然后 将入侵和非入侵AMF孢子接种至两种人工群落中,并在生长期间分别供应3种形态氮(NO₃-N、NH₄-N、Gly-N);生长结束后收获各植物群落地上、地下生物量,测定加拿大一枝黄花的形态特征。研究结果发现,加拿大一枝黄花未表现出显著的氮形态依赖性,本地植物则表现出较弱的氮形态依赖性;但入侵AMF可消除氮形态对本地植物的影响。在无氮源供应时,AMF不影响两种植物群落的生长,而提供任一形态氮源时,入侵AMF均显著促进该入侵植物的地下生物量和总生物量而不改变本地植物的生长。加拿大一枝黄花-AMF正相互作用强度显著大于本地植物-AMF相互作用的强度,且这种正的相互作用是通过直接或间接调节加拿大一枝黄花的表型特征(如株高、叶数、根状茎数量等)来实现的。该研究强调了植物-AMF相互作用在入侵中的重要性,并揭示了加拿大一枝黄花特殊的氮获取策略,为进一步研究入侵机制提供了重要的依据。     

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.     

丛枝菌根网络对不同喀斯特适生植物生长及氮摄取的影响

丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)能够通过菌丝体在不同的植物个体间形成公用菌根网(Common mycorrhizal networks,CMN)。针对喀斯特生境中不同植物个体间通过CMN调控营养分配和生物性状的问题,本研究选择了喀斯特生境3种不同的适生植物作为研究对象,模拟自然环境构建微生态系。试验设置同位素供体室和受体室,供体隔室种植香樟并进行同位素~(15)N标记,受体隔室种植不同生长型植物香樟、构树和鬼针草;利用20μm(M~+)和0.45μm尼龙网(M~-)对受体隔室进行处理,同位素~(15)N标记供体植物香樟根系,测定受体植物幼苗叶片δ~(15)N值、植株氮摄取量、生物量以及生长性状指标。试验结果表明:(1)M~+处理的3种受体植物叶片δ~(15)N值分别显著高于M~-处理;同时M~+处理显著提高了香樟幼苗地上、地下部分及植株总氮摄取量,构树和鬼针草的氮摄取量在不同处理间差异未达到显著水平。(2)M~+处理显著提高了香樟地上、地下和总生物量,但对构树没有显著影响;M~+处理下香樟幼苗株高、地径及叶面积和鬼针草幼苗株高、地径分别显著高于M~-处理,但构树在M~+和M~-处理间没有显著差异。(3)M~+处理的香樟幼苗根系平均直径、根长,根表面积和根体积分别显著高于M~-处理,但M~+处理的构树幼苗则显著降低。研究表明,微生态系中丛枝菌根网CMN非平衡性地影响了不同植物个体的氮摄取及植物生长性状,CMN更有利于提高与供体植株为同一物种的受体香樟叶片δ~(15)N、植株N摄取量以及促进其生物量积累和苗木根系生长。     

接种丛植菌根真菌对湿生植物氮磷吸收能力的影响

丛枝菌根(Arbuscular mycorrhizal,AM)真菌是一类能够与大多数陆生植物共生,并改善植物生长和氮磷吸收的微生物.湿生植物在湿地污染净化过程中起着决定性的作用,但利用AM真菌改良湿生植物氮磷吸收能力的研究鲜有报道.本研究选取了3种湿生植物千屈菜、旱伞草和黄花鸢尾,在盆栽培养的基础上,分别接种根内球囊霉(RE)、摩西球囊霉(GM)、幼套球囊霉(CE)三种AM真菌,并和空白对照比较接种AM真菌对不同植物地上、地下及整株的生物量和氮磷吸收的影响.结果表明,接种AM真菌对植物生长和氮磷吸收的影响呈现出植物间和植物内的差异,促进与抑制效应表现不一.综合AM真菌对植物生物量和氮磷吸收的促进效应,最佳AM真菌-植物的组合为:千屈菜-RE,旱伞草-RE,黄花鸢尾接种-GM.三种植物接种最佳的AM真菌后植物生物量、TN量和TP量分别提高了17.7%~29.8%、15.7%~39.0%和22.3%~62.6%.本研究为今后强化湿生植物的氮磷吸收能力提供了一种新的可选择的途径.     

Effects of vesicular-arbuscular mycorrhizae on growth and phosphorus and zinc nutrition of peanut (Arachis hypogaea L.) in an Oxisol from subtropical Australia

Peanut plants (cv. Shulamit) were grown in an Oxisol soil in pots in the glasshouse to assess effects of soil sterilization and inoculation with spores of vesicular-arbuscular mycorrhizal fungi (VAMF) on the response to five rates of phosphorus (0 to 240 kg P ha^–1) and two rates of zinc (0 and 10 kg Zn ha^–1) fertilizers.Both P and Zn nutrition were affected by VAMF activity but the dominant role of VAMF in this soil type was in uptake of P. In the absence of VAMF there was a clear threshold level of P application (60 kg P ha^–1) below which plants grew poorly, which resulted in a sigmoidal response of dry matter to applied P. The maximum response was not fully defined because dry matter production continued to increase up to 240 kg P ha^–1. Tissue P concentration of non-mycorrhizal plants increased linearly with P rate and was always significantly less than that in mycorrhizal plants.Mycorrhizal plants responded without threshold to increasing P rate, attaining maximum dry matter at 120 kg P ha^–1 in inoculated sterilized soil and at 30 kg P ha^–1 in nonsterile soil. These differences in maximal P rates and in the greater dry matter produced in sterile soil at high P rates were attributed to the negative effects of the root-knot nematodeMeloidogyne hapla in nonsterile soil.Plant weight did not respond to zinc fertilizer but tissue Zn concentration increased with applied Zn. Tissue Zn concentration and uptake were increased by VAMF.     

保水剂和丛枝菌根真菌异形根孢囊霉对紫花苜蓿生长与抗旱性的影响

为探讨保水剂（super absorbent polymers,SAP）和丛枝菌根真菌（arbuscular mycorrhizal fungi,AMF）对植物生长和抗旱性的影响,以紫花苜蓿Medicago sativa为供试植物,开展了温室盆栽试验。植物播种时设置土壤添加和不添加聚丙烯酰胺型SAP（BJ2101）处理,以及接种和不接种异形根孢囊霉Rhizophagus irregularis处理,通过称重法维持12%的土壤含水量（正常供水）,植物生长30d,各处理一半植物接受干旱胁迫（6%的土壤含水量）,另一半仍正常供水,持续30d后收获。结果表明,在干旱胁迫下,接种AMF显著增加了紫花苜蓿的植株干重,促进了植物对矿质元素的吸收,提高了叶片中叶绿素和脯氨酸含量,增强了植物的抗旱性。SAP抑制了R. irregularis对植物根系的侵染;与单接种AMF相比,SAP和AMF的联合施用降低了紫花苜蓿的生物量,影响了植物对矿质元素的吸收。本研究中,SAP和AMF的联合施用并没有表现出协同增效作用,这一方面可能是因为研究设定的土壤水分管理模式,另一方面SAP与AMF共同施用的适宜条件还需进一步探索优化。     

Triadimefon enhances growth and net photosynthetic rate in NaCl stressed plants of Raphanus sativus L.

The effect of sodium chloride and triadimefon (TDM) on the chlorophyll (Chl) content, net photosynthetic rates (P_N), rate of transpiration (E), and intercellular CO₂ concentration (C_i) in Raphanus sativus was studied. The effect of NaCl salinity was partially ameliorated by TDM which caused increase in Chl content, P_N, and C_i. TDM also increased root dry matter production, decreased E, and increased the water use efficiency. This revised version was published online in June 2006 with corrections to the Cover Date.     

土壤养分对菊科一年生入侵种和本地种繁殖性状的影响

入侵植物繁殖性状的研究可为揭示植物入侵机制提供重要的科学依据。为研究土壤养分对入侵植物和本地植物繁殖性状的影响, 并进一步研究养分添加是否更能促进入侵植物的繁殖能力, 我们设置了低、高两个养分水平, 通过同质园实验比较了不同土壤养分对假臭草(Praxelis clematidea)、胜红蓟(Ageratum conyzoides)、三叶鬼针草(Bidens pilosa) 3种菊科一年生入侵种和夜香牛(Vernonia cinerea)、一点红(Emilia sonchifolia)、墨旱莲(Eclipta prostrata) 3种本地种繁殖性状的影响。研究结果显示, 养分添加提高了6种菊科植物的开花株高、株高、地上生物量、单粒种子重量、总花序数、每花序种子数、总种子数量、总种子重量, 并使开花时间提前、花期延长。养分添加对入侵种的开花株高和单粒种子重量的提高幅度要比本地种更显著。相对于部分本地植物(夜香牛、墨旱莲), 养分添加更能促进部分入侵植物(假臭草、胜红蓟)的繁殖能力。三叶鬼针草和一点红的总种子数量和总种子重量在两种土壤养分水平下均较小。本地种墨旱莲的总种子数量和总种子重量在低养分条件下高于3个入侵种。这些结果表明, 高土壤养分仅能促进部分入侵植物相对于部分本地植物的繁殖能力。     

毛乌素沙地克隆植物生长对AM真菌多样性和菌根形成的影响

克隆植物的生态功能在沙地植被恢复过程中占据着重要位置。在毛乌素沙地由北向南选择两个典型样地,以根茎克隆植物沙鞭和羊柴为试验材料,连续2a系统地研究了克隆植物生长对AM真菌物种多样性和菌根形成的影响。结果表明:克隆植物生长对AM真菌物种多样性和丛枝菌根形成的影响因植物种类和样地不同而异。沙鞭通过克隆生长侵入灌丛空地后,AM真菌多样性指数在中国科学院植物研究所鄂尔多斯沙地草地生态研究站(简称OSES)和陕西榆林珍稀沙生植物保护基地(简称RSCF)样地均上升;孢子密度、菌丝、丛枝和总定殖率均显著提高;泡囊定殖率也有所增加,在OSES样地达显著水平,在RSCF样地未达显著水平。羊柴通过克隆生长侵入灌丛空地后,AM(Arbuscular mycorrhizal)真菌多样性指数在OSES样地上升,而在RSCF样地下降;孢子密度和丛枝定殖率在OSES和RSCF样地均显著增加,而泡囊定殖率均显著降低;菌丝和总定殖率也降低,在OSES样地未达显著水平,在RSCF样地达显著水平。