Intra-specific variations of two Leymus chinensis divergence populations in Songnen Plain, Northeast China

ＩｎｔｒｏｄｕｃｔｉｏｎＴｈｅｉｎｔｒａ ａｎｄｉｎｔｅｒ ｓｐｅｃｉｆｉｃｖａｒｉａｔｉｏｎｓｏｆｐｌａｎｔｐｏｐｕｌａｔｉｏｎｓｈａｖｅｂｅｅｎｗｅｌｌｄｏｃｕｍｅｎｔｅｄｆｏｒｍａｎｙｐｌａｎｔｐｏｐｕｌａｔｉｏｎｓ (Ｂａｓｓｏｗ ,1 997;Ｃａｌｌａｗａｙ ,1 994;Ｄｅｌｐｈ ,1 993;Ｆｏｒｄ ,1 981 ;Ｊｏｎｅｓ,1 999;Ｍｏｎｓｏｎ ,1 989;Ｐａｖｏｎｅ ,1 985;Ｖａｖｒｅ,1 997) .Ｈｏｗｅｖｅｒ,ｍｏｓｔｏｆｔｈｅｓｔｕｄｉｅｓｆｏｃｕｓｅｄｏｎｉｎｔｅｒ ｓｐｅｃｉｆｉｃｖａｒｉａｔｉｏｎｓｉｎｍａｌ…     

不同铁营养状况下根系特征及蒸腾对黄瓜幼苗吸收镉的影响

采用营养液培养方法,研究了不同铁营养状况下的根系形态变化及蒸腾作用对不同品种黄瓜幼苗吸收镉的影响.结果表明,不加铁处理对地上部生物量的影响大于对根系的影响,并且不同品种间生物量差异显著.不加铁处理和低水平铁处理时,黄瓜根长变长、根表面积变大.与不加铁处理相比,加铁处理显著抑制了黄瓜根系对镉的吸收,中农5号(缺铁敏感黄瓜品种)和津春4号(缺铁不敏感黄瓜品种)每克根对镉的吸收量分别降低了25.5%~45.5%和28.8%~55.0%;但却增加了镉向地上部的转运,镉在叶中的分配系数分别增加了2.2~3.6倍(中农5号)和2.6~3.7倍(津春4号).缺铁敏感的中农5号吸镉总量与根长、根表面积都呈显著正相关性,而缺铁不敏感的津春4号吸镉总量与根长、根表面积之间的关系不显著.不管是中农5号还是津春4号,其蒸腾速率与每克根吸收镉的量均呈显著的正相关关系.不同铁营养状况影响了黄瓜幼苗的根系形态和蒸腾速率,从而影响了根系对镉的吸收,高铁水平显著抑制了黄瓜根系对镉的吸收.     

叶用油菜和孔雀草间作对植物生长和镉累积的影响

为揭示镉（Cd）低积累作物与超富集植物间作对Cd污染土壤安全利用和提取修复的作用,通过盆栽试验,将两种Cd累积能力不同的叶用油菜（Brassica chinenesis L.,低积累油菜华骏和普通油菜寒绿）与4种孔雀草（Tagetes patula L.,矮杆红花、矮杆黄花、高杆红花和高杆黄花）间作,研究间作措施对两类植物生长、光合作用参数、Cd累积以及土壤有效态Cd和可溶性有机碳（DOC）含量的影响.结果表明,与单作相比,间作后油菜生物量显著降低,孔雀草生物量显著升高.间作处理中油菜叶片的净光合速率、气孔导度、蒸腾速率较单作均显著降低.华骏与矮杆红花间作时,华骏地上部Cd含量较单作显著降低14.5%,矮秆红花地上部Cd含量显著增加36.5%;其余间作处理下油菜地上部Cd含量均显著升高或无显著变化,而孔雀草地上部Cd含量无显著变化.间作处理下,油菜地上部Cd累积量较单作处理显著降低,孔雀草地上部Cd累积量显著升高.间作处理下土壤Cd提取率与孔雀草单作处理无显著差异.油菜地上部Cd含量与土壤有效态Cd以及DOC含量分别呈极显著和显著的正相关关系.总之,Cd低积累油菜华骏与孔雀草矮杆红花间作组合表现最佳,在Cd污染菜地土壤的修复和安全利用中有较好的应用价值.     

亚硒酸盐对四种蔬菜生长、吸收及转运硒的影响

采用土培盆栽试验和室内分析相结合的方法,研究了添加不同含量外源亚硒酸盐对小白菜、芥菜、生菜和菠菜的生长、吸收及转运硒的影响.结果表明,低含量硒(＜3.81 mg·kg-1)对供试的4种蔬菜的生长均有促进作用,而高含量硒(＞29.91 mg·kg-1)却显著抑制蔬菜的生长,并对供试蔬菜的茎、根产生明显的毒害作用.同等硒添...     

旺盛期烟草对镉富集敏感性研究

采用盆栽试验方法,揭示了旺盛期烟草（云烟99）对镉的富集特点以及光合等生理指标对镉胁迫的响应.结果表明：当土壤镉含量分别为4.43,7.94,17.33和49.79mg/kg时,烟草茎、叶及地上部镉的富集系数（植物镉含量与土壤镉含量的比值）均大于1,转移系数（地上部镉含量与根镉含量的比值）也大于1,但镉含量未达到镉超富集植物的临界含量标准100mg/kg.当土壤镉含量为4.43mg/kg时,烟草的耐性较强.当土壤镉含量大于7.94mg/kg时,烟草的生物量、叶片光合色素含量、净光合速率、蒸腾速率、气孔导度和SOD活性均显著下降（P<0.05）,胞间CO₂浓度和MDA含量显著提高（P<0.05）.旺盛期烟草对镉富集比较敏感,建议烟草的种植要远离镉污染土壤或镉背景值较高的土壤.     

镧-铅复合污染下AM真菌对玉米生长和镧、铅吸收的影响

采用温室盆栽试验的方法,模拟不同程度的镧-铅复合污染土壤(50、200、800 mg·kg~(-1)),研究接种丛枝菌根(arbuscular mycorrhizal,AM)、真菌Claroideoglomus etunicatum(CE)和Rhizophagus intraradices(RI)对玉米(Zea mays L.)菌根侵染率、生物量、矿质营养元素吸收、C∶N∶P生态化学计量比、稀土镧(La)和重金属铅(Pb)吸收、转运的影响,旨在为稀土-重金属复合污染土壤的治理和修复提供科学依据.结果表明,AM真菌CE和RI均与玉米建立了共生关系,平均菌根侵染率为26.7%~95.8%;随着La-Pb复合污染含量的增加,玉米植株菌根侵染率、地上部和根部生物量以及N、P、K、Ca、Mg这5种矿质营养元素含量显著降低,而玉米植株C∶P和N∶P以及地上部和根部La、Pb含量显著增加.接种2种AM真菌使玉米植株生物量显著提高了17.8%~158.9%,地上部和根部P含量显著提高了24.5%~153.8%,降低了C∶P和N∶P,符合生长速率假设.在3种程度La-Pb复合污染含量土壤上,AM真菌使玉米植株根部Pb含量显著增加了51.3%~67.7%,地上部Pb含量显著降低了16.0%~67.7%,Pb从玉米根部向地上部的转运率降低了31.5%~54.7%;同时,接种AM真菌显著增加了轻度LaPb复合污染土壤上玉米植株的La含量,在中度La-Pb复合污染土壤上却显著减少了玉米地上部的La含量,增加了玉米根部的La含量,抑制了La从根部向地上部的转运,重度La-Pb复合污染土壤上均没有显著影响.试验结果初步证明,AM真菌具有促进稀土-重金属复合污染土壤植物修复的潜力,对于稀土-重金属复合污染土壤生态系统的植被恢复具有潜在应用价值.     

总氮浓度对3种沉水植物生长的影响

在1/40 Hoagland营养液的基础上,采用NH4NO3为氮源,设定了2、4、8、16 mg·L-1 4个不同总氮浓度的培养液,以洗净的长江河沙为栽培基质,分别对3种我国湖泊中常见的沉水植物马来眼子菜(Potamogetonmalaianus)、苦草(Vallisneria natans)和黑藻(Hydrilla verticillata)进行了为期45d的水培试验,研究了水体中不同总氮浓度对3种沉水植物分枝数、根长、株高、鲜重等生长指标的影响,以期为富营养化水体中沉水植被的恢复与先锋物种的选择提供科学依据.结果表明,试验结束时不同处理的马来眼子菜的各项生长指标均显著增加,苦草没有产生新的分枝,黑藻的根长没有显著的增加;不同处理的3种沉水植物的鲜重在试验结束时均有显著增加,其增加的顺序表现为马来眼子菜＞苦草＞黑藻的趋势;植物株高和鲜重的净积累随处理浓度的升高而显著增加,根系的净伸长则随处理浓度的升高而显著降低.由于马来眼子菜所有的生长指标均表现出比苦草和黑藻有显著的生长优势,因此,在符合本试验条件的水体沉水植被的恢复过程中可以作为先锋植物.     

三叶鬼针草等7种常见菊科杂草植物对重金属的超富集特征

超富集植物是植物修复重金属污染土壤技术最主要的内容,而超富集植物的筛选是植物修复技术的难点和重点.采用室外盆栽试验的方法, 研究了我国北方较常见的7种菊科植物对重金属的超富集特征. 盆栽筛选试验表明, 蒲公英和三叶鬼针草对Cd单一及Cd-Pb-Cu-Zn复合污染的耐性较强, 植物地上部镉含量分别高于其根部镉含量,地上部镉的富集系数也均大于1, 具备了镉超富集植物的基本特征. 以这2种植物为试材的盆栽浓度梯度试验表明, 当土壤中Cd投加浓度分别为25、 50、 100 mg·kg^-1时,三叶鬼针草地上部生物量没有明显下降(p<0.05), Cd含量均大于其根部Cd含量, 且其叶中Cd含量均大于100 mg·kg^-1, 达到了Cd超富集植物应达到的临界含量标准.而蒲公英在这3个处理条件下,其叶片中Cd含量均没有超过100 mg·kg^-1. 可见只有三叶鬼针草完全具有镉超富集植物的基本特征,是镉超富集植物.     

Does copper reduce cadmium uptake by different rice genotypes？

A hydroponics experiment was conducted to investigate the effect of copper （Cu） on cadmium （Cd）, calcium （Ca）, iron （Fe）, and zinc （Zn） uptake by several rice genotypes. The experiment was carried out as a 2×2×4 factorial with four rice genotypes and two levels of Cu and Cd in nutrient solution. Plants were grown in a growth chamber with controlled environment. The results showed a significant difference between the biomass of different rice genotypes （P 〈 0.001）. The Cd and Cu concentration in the solution had no significant effect on the biomass. The addition of Cu significantly decreased Cd uptake by shoots and roots of rice （P 〈 0.001）. The Cd concentration did not significantly influence Ca uptake by plants, whereas the Cu concentration did （P = 0.034）. There was a significant influence of Cd on Fe uptake by shoots and roots （P 〈 0.001, P = 0.003, respectively）. Zn uptake decreased significantly as the addition of Cd and Cu increased in shoots. We concluded that Cu had significant influence on Cd uptake. The possible mechanisms were discussed.     

磺胺间甲氧嘧啶-镉复合污染对作物种子发芽的影响

测定了黄潮土中常用兽药磺胺间甲氧嘧啶(SMM)与重金属镉(Cd)单一及复合污染对小麦和西红柿种子发芽(根伸长、芽伸长和发芽率)的影响,分析了土壤中药物浓度与作物生长抑制的剂量-效应关系及复合污染的毒性效应.结果表明,在单一污染物作用下,根伸长抑制率和芽伸长抑制率与药物浓度显著相关(P0.05);药物对根伸长及芽伸长的抑制高于对种子发芽的抑制;SMM对2种作物的毒性效应明显强于Cd,SMM对小麦和西红柿根伸长的IC50(抑制率为50%时污染物浓度)分别为33.7,49.3mg/kg,而Cd为507.3,599.8mg/kg.SMM和Cd复合污染时,在低Cd(200mg/kg)的胁迫下,联合作用主要体现为协同作用,但随着SMM浓度的增加,协同效应不显著(P>0.05);在高Cd(500mg/kg)作用下,二者的联合效应中Cd起主要作用.     

新农药单甲脒对棉花的生态生理影响

两年的研究结果表明：单甲脒推荐浓度－稀释１０００倍对棉花的生理机能有些促进作用，其水分利用效率正常；其他处理浓度对光合速率也无不良影响，对气孔开度、蒸腾速率仅在施药初期略有抑制，半衰期后抑制消失，稀释５００倍以下各处理水分利用效率受到不同程度的抑制。单甲脒在棉叶残留量最多，伴随着叶片的Ｎ、Ｐ含量也略增加，可认为适量的施用单甲脒不仅能防治虫害、且能促进棉花的光合速率从而提高了干物质生产。     

淹水调控对互花米草生长的影响

为了研究不同淹水深度和淹水时间胁迫下互花米草的适应能力,设置不同淹水深度(0,10和20 cm)与不同淹水时间(2,4,6,12和24 h/d)处理,以7～10 cm互花米草为试验对象,4个月后统计其生长发育参数与分蘖数,并测定地上部分的生物量.结果表明:①在淹水0,10和20 cm 3组试验之间呈极显著差异(P<0.01),随淹水深度的增加,互花米草分蘖数和地上生物量显著减少;②不同淹水时间各组之间株高呈极显著差异(P<0.01),随淹水时间的增加,互花米草分蘖数和地上生物量相应减少,且一直淹水于20 cm的互花米草全部死亡;③不同淹水时间、淹水深度对互花米草的影响大小主要表现为植株高度系数>叶片相关系数>无性生殖系数.持续淹水是控制互花米草的行之有效的物理措施.      

Arsenic uptake by arbuscular mycorrhizal maize （Zea mays L.） grown in an arsenic-contaminated soil with added phosphorus

The effects of arbuscular mycorrhizal (AM) fungus (Glomus mosseae) and phosphorus (P) addition (100 mg/kg soil) on arsenic (As) uptake by maize plants (Zea mays L.) from an As-contaminated soil were examined in a glasshouse experiment.Non-mycorrhizal and zero-P addition controls were included.Plant biomass and concentrations and uptake of As,P,and other nutrients,AM colonization,root lengths,and hyphal length densities were determined.The results indicated that addition of P significantly inhibited root colonization and development of extraradical mycelium.Root length and dry weight both increased markedly with mycorrhizal colonization under the zero-P treatments,but shoot and root biomass of AM plants was depressed by P application.AM fungal inoculation decreased shoot As concentrations when no P was added,and shoot and root As concentrations of AM plants increased 2.6 and 1.4 times with P addition,respectively.Shoot and root uptake of P,Mn,Cu,and Zn increased,but shoot Fe uptake decreased by 44.6%,with inoculation, when P was added.P addition reduced shoot P,Fe,Mn,Cu,and Zn uptake of AM plants,but increased root Fe and Mn uptake of the nonmycorrhizal ones.AM colonization therefore appeared to enhance plant tolerance to As in low P soil,and have some potential for the phytostabilization of As-contaminated soil,however,P application may introduce additional environmental risk by increasing soil As mobility.     

Effects of road dust on the growth characteristics of Sophora japonica L. seedlings

Road dust is one of the most common pollutants and causes a series of negative effects on plant physiology. Dust's impacts on plants can be regarded as a combination of load,composition and grain size impacts on plants; however, there is a lack of integrated dust effect studies involving these three aspects. In our study, Sophora japonica seedlings were artificially dusted with road dust collected from the road surface of Beijing so that we could study the impacts of this dust on nitrogen/carbon allocation, biomass allocation and photosynthetic pigments from the three aspects of composition, load and grain size. The results showed that the growth characteristics of S. japonica seedlings were mostly influenced by dust composition and load. Leaf N, root–shoot ratio and chlorophyll a/b were significantly affected by dust composition and load; leaf C/N, shoot biomass, total chlorophyll and carotenoid were significantly affected by dust load; stem N and stem C/N were significantly affected by dust composition; while the dust grain size alone did not affect any of the growth characteristics. Road dust did influence the growth characteristics more extensively than loam. Therefore, a higher dust load could increase the differences between road dust and loam treatments. The elements in dust are well correlated to the shoot N, shoot C/N, and root–shoot ratio of S. japonica seedlings. This knowledge could benefit the management of urban green spaces.     

小白菜对外源硒酸盐和亚硒酸盐动态吸收的差异及其机制研究

通过盆栽试验和室内分析,研究了小白菜对不同含量的外源硒酸盐和亚硒酸盐动态吸收的差异,并通过土壤有效硒及生物量的动态变化探究其产生的原因,旨在为富硒作物的生产和硒污染土壤的植物修复提供理论依据.结果表明,硒酸盐和亚硒酸盐处理小白菜地上部分生物量间无显著差异.在小白菜的整个生长期间(8周),硒酸盐处理小白菜地上、地下部硒含量均随生长逐渐下降,而亚硒酸盐处理小白菜地上、地下部硒含量均随生长逐渐增大.硒酸盐处理地上部硒吸收量显著高于地下部,而亚硒酸盐处理地下部硒吸收量显著高于地上部;且在整个生长过程中硒酸盐处理小白菜硒吸收量是亚硒酸盐处理的2～60倍之多,导致硒酸盐处理土壤中有效硒含量随着小白菜的生长迅速下降,而亚硒酸盐处理土壤中有效硒含量随小白菜的生长略有下降.统计分析表明,硒酸盐处理小白菜体内硒含量与土壤有效硒含量呈显著正相关,地上、地下硒含量与土壤有效硒的相关系数分别为0.901和0.864,而亚硒酸盐处理两者相关性不显著.综合小白菜硒含量和土壤有效硒随生长变化的结果可以得出,小白菜对硒酸盐和亚硒酸盐动态吸收的差异是小白菜对不同价态硒吸收能力和土壤供硒能力综合作用的结果.     

钒镉复合污染对水稻吸收积累镉、钒和磷的影响

采用溶液培养法研究钒与镉复合污染对水稻生长及其吸收积累镉的影响,以便弄清在钒与镉复合污染条件下水稻的生长情况.试验结果表明,钒镉复合污染可影响水稻的生长发育.在培养液镉浓度(1 0mg·L-1)不变的情况下,随着溶液中钒浓度的增加,水稻根长、根系和茎叶的干重不断减少.当溶液中钒浓度达到1 6mg·L-1和3 2mg·L-1时,水稻茎叶和根系干重减少分别达到显著水平(p<0 05).钒镉复合污染也影响水稻植株对磷、钒和镉的吸收与积累.当培养液中镉浓度不变时,随着溶液中钒浓度的增加,水稻根系和茎叶中的磷浓度不断降低,而钒含量却不断提高,根系比茎叶积累更多的钒.此外,钒可抑制水稻植株对镉的吸收与积累.     

Wheat volatile emissions modified by top-soil chemical characteristics and herbivory alter the performance of neighbouring wheat plants

Plant emission of volatile organic compounds (VOCs) has a significant impact on arthropods and plants and alters important functions in the agroecosystems. Three field source–sink microcosm experiments evaluated variation in wheat plants volatile emissions and its impact on neighbouring wheat plants’ performance caused by genotype, aphid herbivory and soil nutrient availability due to different cropping histories. An electronic nose detected qualitative differences in volatile emissions. Two of the experiments established the source–sink relationships forcing the volatiles through pipes. In these experiments wheat genotype was introduced as a variable of the source plants. In the third experiment, the emissions of volatiles dispersed naturally affecting the neighbourhood only by proximity and wheat genotype was a controlled factor. Plant genotype, aphid attack and soil chemical changes caused by different cropping histories affected wheat volatile emissions despite independent variations in plant biomass or resource allocation. This is the first report of changes in distant plant biomass according to neighbouring plant genotype and agricultural history. Wheat VOCs emissions were associated with changes in soil organic C, Ca, Mg, total nitrogen and cation exchange capacity caused by the different cropping histories of the soils tested. Variability in total biomass and resource allocation increased due to changes in VOCs emissions promoted by longer cropping history or aphid feeding in two genotypes. When volatiles were naturally dispersed into the neighbourhood, tiller weight in the sink individuals depended on plant genotype and cropping history of its neighbours (i.e. VOCs source). These findings highlight that ecological and environmental consequences of agricultural practices are more complex than normally thought.     

Effects of As on As uptake,speciation, and nutrient uptake by winter wheat （Triticum aestivum L.） under hydroponic conditions

A hydroponic experiment was conducted to investigate the effects of arsenic （As） stress on growth, nutrition and As uptake, and speciation in shoots and roots of winter wheat （Triticum aestivum L.）. Winter wheat has high tolerance to As. Most As is accumulated in the roots, and an As concentration of 4,421 mg/kg was observed at a solution concentration of 20 mg/L As. Arsenic concentrations in roots were approximately 40-100 times greater than those in shoots. Arsenic in winter wheat roots and shoots occurred as both As^3＋ and As^5＋ species, although As^3＋ was the main species in winter wheat tissues. Arsenic significantly decreased the biomass of winter wheat shoots and roots and affected absorption and transport of micro- and macro-elements in winter wheat tissue. Arsenic treatment significantly increased the concentrations of total Magnesium （Mg） and calcium （Ca） in shoots and enhanced the transport of Mg and Ca from roots to shoots but decreased potassium （K）, nitrogen （N）, and phosphorus （P） concentrations in both shoots and roots, particularly the concentration of P. Concentrations of iron, copper, and zinc in winter wheat shoots were negatively related to As rates, with correlation coefficients （R^2） of 0.93, 0.94, and 0.97, respectively.     

植物光合及蒸腾特性对湿地脱氮效果的影响

测定了芦苇光合作用及蒸腾特性随气象和水力条件的变化,及湿地相应的脱氮效率.采用相关系数法分析了芦苇光合及蒸腾特性与脱氮效率之间的关系.结果表明,芦苇的光合作用、蒸腾作用对湿地脱氮效果影响较大,随净光合速率和蒸腾速率的增加,湿地中DO浓度上升,改善了湿地脱氮效果;湿地水深影响芦苇水分利用效率和湿地脱氮效率,与浅水位比较而言,深水位下芦苇的水分利用率和湿地脱氮效率都得到了提高.     

内蒙古温带草原羊草叶片功能特性与光合特征对外源氮输入的响应

以内蒙古锡林河流域羊草草原典型植被羊草(Leymus chinensis)为研究对象,探讨了4个不同氮素输入水平(0、5、10和20g·m-·2a-1)下羊草叶片功能特性与光合特征的响应,并分析了外源氮输入背景下草地生态系统固碳潜势的变化.结果表明:中等水平施氮(10g·m-·2a-1)显著增加了羊草叶面积、叶绿素相对含量、叶氮浓度与净光合速率,但与中氮相比,高氮(20g·m-·2a-1)输入下却有所下降;施氮不仅对叶片净光合速率有一定程度的促进作用,而且延长了光合作用高峰期的持续时间;随着氮素添加梯度的增加,羊草叶片蒸腾速率降低,瞬时水分利用效率增高,气孔导度增大,胞间CO2浓度逐渐减小.从光合固碳的角度来看,适量的外源氮素输入有利于草地生态系统固定更多的CO2.