外源NO对铝毒下水稻根系生长和抗氧化系统的影响

以水稻品种‘浙辐802’为材料,采用水培法研究铝毒下外源NO对幼苗根系生长、活性氧产生和抗氧化酶活性的影响,探讨外源NO提高水稻耐铝性的生理生化机制。结果显示:(1)0.05mmol/L Al显著抑制水稻根系生长,促使根尖Al、胼胝质、过氧化氢(H2O2)和超氧阴离子自由基(O-·2)含量显著增加;而外源0.1mmol/L的NO供体亚硝基铁氰化钠(sodium nitroprusside,SNP)预处理能使铝毒下水稻幼苗根相对伸长率及根尖NO含量分别增加34.96%和12.86%,根尖Al和相对胼胝质含量分别下降83.04%和31.93%,表明NO可部分缓解铝毒害,且这种作用与内源NO含量变化有关。(2)外源NO同时使铝毒下水稻幼苗根尖H2O2和O-·2含量分别下降15.43%和12.93%,使超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性显著上升,且外源NO的该种作用可以被0.075mmol/L NO清除剂(carboxy-PTIO,cPTIO)所逆转。研究表明,外源NO在调节活性氧代谢以维持细胞膜结构稳定,进而有效减轻Al对水稻根系的损伤上起着重要作用。     

盐碱胁迫对海岛棉幼苗生物量分配和根系形态的影响

为探求海岛棉幼苗生物量分配和根系生长对混合盐碱胁迫的响应,探索海岛棉幼苗对混合盐碱胁迫的适应特点,以新疆阿克苏地区主栽海岛棉品种新海31号(XH31)、新海35号(XH35)、新海43号(XH43)及新海48号(XH48)为试材,采用NaCl、Na_2SO_4和NaCl、NaHCO_3以物质的量1∶1混合分别模拟中性盐混合盐(中性盐)和碱性盐混合盐(碱性盐)2种盐类型,总盐浓度(Na~+)0(CK)、120、180、240、300、360 mmol/L,对2种盐胁迫下不同浓度海岛棉幼苗生物量、根系长度、根系体积以及根系表面积等海岛棉幼苗根系形态特征指标变化差异以及不同茎级的根系形态特征进行了分析。结果表明,中性盐下,盐浓度在0—180 mmol/L时,对海岛棉幼苗的根系总长度、总表面积、总体积、总根尖数有显著的促进的作用或不显著的抑制作用,尤其盐浓度为120 mmol/L对海岛棉幼苗细根(0d0.5 mm)的长度有显著的促进作用;大于180 mmol/L后,随着盐浓度的增加各项根系参数均显著减小;碱性盐下,除新海31号的总根尖数、细根及中根根尖数在120 mmol/L的盐浓度下比CK增加,其余处理均随着盐浓度的增加再减小;地上部生物量、根系生物量及根冠比在两种盐下随着盐浓度的增加逐渐减小,减小程度也由小变大。低盐(120 mmol/L)环境能促进细根的伸长,使海岛棉幼苗可以更加多的吸收养分和水分,这是根系接触低盐环境时做出的响应,高盐环境对海岛棉幼苗造成较大的损伤。     

外源硅对干旱胁迫下烟草幼苗生长、叶片光合及生理指标的影响

采用营养液水培法,研究了施用不同浓度外源硅(0、0.5、1.0 mmol/L)对干旱胁迫(10%PEG、20%PEG)下烟草幼苗生长、叶片光合特性和生理指标的影响。结果表明:干旱胁迫严重抑制了烟草幼苗生长和光合作用,膜质稳定性降低和引起氧化应激反应;施用不同浓度外源硅有效改善了干旱胁迫下烟草幼苗生长,均表现为株高、叶面积、根系体积、根系干重和地上部干重等生长指标增加,提高叶绿素a、叶绿素b、叶绿素a+b和类胡萝卜素含量,显著提高净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)并降低胞间CO2浓度(Ci),膜质过氧化产物MDA含量显著降低,提高叶片含水量、膜稳定性系数和渗透调节物质(脯氨酸、可溶性糖)含量,显著提高SOD、POD和CAT等抗氧化酶活性,而且1.0 mmol/L Si处理对干旱胁迫下烟草幼苗生长和生理特性的影响显著优于0.5 mmol/L Si处理。以上结果说明,施用外源硅能提高干旱胁迫下烟草幼苗光合作用、抗氧化和渗透调节能力,缓解干旱胁迫对烟草幼苗的伤害,促进其生长。     

低温胁迫下玉米幼苗根系受外源海藻糖调控的生理表现

为了探究海藻糖对增强玉米幼苗抗低温能力的生理表现,以玉米"先玉335"为试验材料,采用盆栽试验,分析12 mmol·L-1外源海藻糖对低温胁迫不同时间(0、2、4、6和8d)下玉米幼苗根系生物量、抗氧化酶活性及渗透调节物质的影响。结果表明:低温胁迫显著抑制玉米幼苗根系生长及干物质累积,诱导抗氧化酶活性增加,破坏细胞渗透调节水平;低温胁迫后应用外源海藻糖,玉米幼苗根系根表面积、根长及鲜干重显著增加,根系内SOD、POD和CAT活性呈现先升高后降低趋势,MDA含量及相对电导率在玉米幼苗根系内显著降低,脯氨酸、可溶性蛋白、可溶性糖含量也呈现先升高后降低趋势;在低温胁迫第6天时,T+L处理的根系根表面积、根长及鲜干重分别较CK+L增加了18.25%、4.73%、2.48%和21.43%;T+L处理后根系内SOD、POD和CAT活性分别较CK+L处理提升17.26%、23.79%和30.78%;T+L处理后根系内MDA含量和相对电导率值分别较CK+L处理降低45.13%和63.25%;T+L处理后的脯氨酸、可溶性蛋白和可溶性糖含量在低温胁迫第6天时最高,与CK+L处理相比差异显著,且分别较CK+L高出2.93、0.51和2.58倍。可见,海藻糖能够调控低温胁迫下玉米幼苗根系生理水平,提高玉米幼苗抗逆能力,促进玉米根系生长及生物量增加,海藻糖对作物生长的生理调控能力与低温存在协同作用,在低温环境下,海藻糖对作物体内抗氧化系统酶活表达及渗透物质的积累有显著提升效果。     

外源亚精胺对盐胁迫下燕麦幼苗生长及生理特性的影响

为探讨外源喷施亚精胺(Spd)对燕麦幼苗生长和耐盐性的影响,该研究选用燕麦品种‘白燕5号’为试验材料,通过水培试验研究70 mmol/L盐胁迫下(NaCl和Na_2SO_4摩尔比1∶1混合),叶面喷施不同浓度的亚精胺对燕麦幼苗生长、根系活力、抗氧化酶活性以及丙二醛、游离脯氨酸和离子含量的影响。结果显示:(1)盐胁迫显著抑制了燕麦幼苗生长,喷施0.75 mmol/L Spd使盐胁迫下幼苗地上、地下干重和根系活力分别显著提高34.1%、23.8%和24.7%。(2)喷施0.75 mmol/L Spd使幼苗叶片中超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)的活性较对照分别显著增加了17.0%、22.9%和23.7%,根系中分别显著增加了43.0%、19.4%和91.2%,并使幼苗叶片和根系中的MDA含量分别显著降低了25.2%和12.8%。(3)喷施0.75 mmol/L Spd使燕麦幼苗叶片和根系游离脯氨酸(Pro)含量分别显著增加了63.3%和362.6%,并使叶片Na~+/K~+、Na~+/Ca~(2+)和Na~+/Mg~(2+)值分别降低了6.7%、16.3%和4.9%。研究表明,在盐胁迫环境下,叶面喷施适宜浓度(0.75 mmol/L) Spd可通过提高燕麦幼苗抗氧化和渗透调节能力,维持生物膜系统的稳定,有效减轻渗透胁迫和离子毒害对幼苗的伤害,从而增强其耐盐性,促进幼苗生长。     

NaCl胁迫对秋茄幼苗根系抗氧化系统的影响

为探讨红树植物秋茄(Kandelia candel)幼苗根系抗氧化系统对盐胁迫的生理响应,以Hoagland完全营养液沙培秋茄幼苗60 d后,用不同浓度NaCl处理秋茄根系1、3、5、7 d,对其生理生化指标的变化进行研究。结果表明,胁迫相同天数,200和400 mmol L~(-1) NaCl处理的秋茄根系O_2~(-·)和H_2O_2含量保持较低水平,而600 mmol L~(-1) NaCl处理的则明显增加;MDA含量在200和400 mmol L~(-1) NaCl处理下保持稳定,而600 mmol L~(-1) NaCl处理的显著升高;SOD、POD、CAT、APX和GR活性随NaCl浓度升高总体上表现先上升后下降的趋势,处理3和5 d后的酶活性均显著高于对照,而600 mmol L~(-1) NaCl处理7 d后的酶活性明显低于对照;AsA和GSH含量总体上均明显高于对照。因此,秋茄幼苗是通过根系功能较强的抗氧化系统清除活性氧以提高植株的耐盐性。     

嫁接茄子根系分泌物的化感效应

采用室内生物测定的方法,研究了不同砧木、不同浓度和不同生育期嫁接茄子根系分泌物的化感效应.结果表明,嫁接茄根系分泌物与自根茄相比,促进了茄子种子的萌发和幼苗生长.各砧木品种嫁接茄根系分泌物的化感效应显著或极显著高于对照,其中发芽率和苗高最高,增加29.1%和37.1%;不同浓度试验结果呈现“低促高抑”的规律,当浓度为0.04g·ml^-1时发芽率最高,比对照增加50%,当浓度增加到0.24g·ml^-1时,根长比对照降低了30.3%;在生长后期嫁接茄的根系分泌物对种子萌发的促进作用小于前中期,而自根茄抑制作用增强.因此,生产中使用嫁接技术是缓解由自毒作用引起的连作障碍的有效方法之一.     

柏木根系分泌物对栾树细根形态及N、P含量的影响

为研究混交过程中柏木根系分泌物对栾树细根生长的影响,以一年生栾树盆栽幼苗为研究对象,通过施加1株、2株、4株、8株4个浓度柏木根系分泌物(分别记为G1、G2、G4、G8)于栾树盆栽中,探讨柏木根系分泌物对栾树幼苗1～5级细根形态及N、P含量的影响。结果表明:(1)栾树细根直径随根序的增加而增大,施加根系分泌物显著减小了1～2级细根的直径(P0.05);细根比根长、比表面积均随根序的增加而减小,施加根系分泌物显著增大了1～2级细根的比根长及比表面积(P0.05);随根系分泌物施加浓度的提高,栾树比根长及比表面积先增大,而直径先减小,然后均趋于平缓波动的态势。(2)栾树细根N、P含量均随根序的增加而减小,而N/P在根序间的变化不显著;施加柏木根系分泌物显著增大了栾树1～2级细根的N、P含量(P0.05),但减小了1～5级细根的N/P;随根系分泌物施加浓度的提高,栾树细根P含量增大,N/P减小,而N含量先增加后呈现平缓变化的趋势。(3)栾树细根N、P含量均与其比根长、比表面积和直径等形态特征之间呈显著的相关关系(P0.05)。研究发现,柏木根系分泌物可改善土壤养分的有效性,从而缓解栾树植株的缺P症状,细根通过调整其形态以提高养分利用效率;柏木根系分泌物主要影响栾树1～2级细根的形态及N、P含量;4株柏木根系分泌物的剂量更有利于栾树根系的生长。     

咖啡根系分泌物对嫁接后植株生长及叶片保护酶活性的影响

咖啡根系分泌物引起的自毒作用是造成咖啡连作障碍的主要原因,而种间嫁接是抑制咖啡自毒的有效方式。为探明嫁接抑制自毒机制,采用盆栽试验研究咖啡主栽品种根系分泌物对嫁接植株的化感效应。结果表明:根系分泌物抑制了咖啡自根苗生长,且随着根系分泌物浓度升高,抑制作用增强;低浓度根系分泌物能促进咖啡嫁接苗生长,经根系分泌物处理后的嫁接苗株高、根长、地上部干重和根干重分别较未处理的对照嫁接苗平均增加了22.15%、6.52%、44.80%和20.67%,根系活力、叶片保护酶活性也明显增加;高浓度根系分泌物虽未能促进嫁接苗生长,但嫁接苗较自根苗生长优势显著,经根系分泌物处理后嫁接苗POD、CAT和SOD活性分别较自根苗增加了60.61%、27.27%和18.24%,MDA含量显著减少,根系活力显著增加。因此,在根系分泌物处理下,嫁接苗能通过提高自身保护酶活性等方式,促进植株生长或使植株生长所受抑制减少。     

多胺对烟草根系生长发育的影响（简报）

土培、砂培和水培试验表明 0.1～0.5 mmol/L的多胺(腐胺和亚精胺)都明显促进烟草侧根发生,增加根数、根长、根体和及根干重,提高根系活力,亚精胺的此种作用大于腐胺。     

地膜使用年限对遵义市烟田土壤和烟叶邻苯二甲酸酯累积的影响

研究地膜使用年限对土壤和烟叶邻苯二甲酸酯(PAEs)积累的影响,以明确地膜持续使用条件下PAEs的土壤污染分布特征及在烟叶中的富集状况.在遵义市连阡村和沙湾村采集了不同覆膜年限的烟田土壤及相应的烟叶,采用气相色谱仪质谱联用技术(GC-MS),对土壤-烟叶中6种优先控制PAEs含量进行了测定.结果表明: 所有土壤和烟叶样品中6种邻苯二甲酸酯化合物累计(∑PAEs)分别为(2.66±0.60)和(3.58±0.64) mg·kg^-1,其中,邻苯二甲酸二(2-乙基己)酯(DEHP)含量最高,邻苯二甲酸正二丁酯(DBP)次之,二者之和分别占土壤和烟叶∑PAEs的92.7%和88.9%.DEHP、DBP、邻苯二甲酸二乙酯(DEP)和邻苯二甲酸丁基苄基酯(BBP)检出率均为100.0%,邻苯二甲酸二甲酯(DMP)的检出率略低,邻苯二甲酸正二辛酯(DnOP)检出率最低.随着地膜使用年限的增加,土壤和烟叶中PAEs含量显著增加,且在地膜使用的前1~ 8年增加更为明显,后期趋于平缓.土壤和烟叶中的PAEs含量与覆膜年限呈显著正相关关系,覆膜年限的增加会显著促进土壤和烟叶中PAEs的积累.烟叶与土壤之间∑PAEs的累积量相关性不显著.     

Enhanced Hatching of Globodera tabacum solanacearum Juveniles by Root Exudates of Flue-cured Tobacco

Stimulation of hatching of a tobacco cyst nematode (Globodera tabacum solanacearum) by root exudates from resistant NC 567 and susceptible K 326 cultivars of flue-cured tobacco, Nicotiana tabacum, was investigated. Root exudates were collected by soaking seedlings in deionized water for 2 hours at 22 °C in the dark. Fifteen mature and uniformly sized cysts were exposed at 15, 20, or 25 °C to undiluted root exudate, root exudate diluted 1:1 or 1:3 with deionized water, or deionized water alone. Hatched juveniles were counted and removed at weekly intervals during 42 and 53 days of exposure in experiments conducted in 1994 and 1995, respectively. Root exudates from both susceptible cultivar K 326 and resistant cultivar NC 567 stimulated more hatching than deionized water at 25 °C in 1994, and at all three tested temperatures in 1995. In 1994, dilution of root exudates 1:3 reduced stimulation of hatching at 25 °C compared to undiluted exudate. Hatching at 25 °C was similarly stimulated by exposure to undiluted root exudate and exudate diluted 1:1. In 1995, both dilutions reduced stimulation of hatching by root exudates at all the temperatures.     

电子垃圾拆解地区土壤和植物中邻苯二甲酸酯分布特征

近年来,电子垃圾不当拆解带来的环境问题引起国际社会的极大关注.本研究对浙江省台州市不同电子垃圾拆解地区土壤和植物样品中5种邻苯二甲酸酯类（PAEs）污染物进行了测定分析.结果表明：土壤（以干质量计）中PAEs类污染物的浓度为12.566~46.669 mg·kg^-1,其中邻苯二甲酸二异辛酯（DEHP）、邻苯二甲酸二丁酯（DBP）和邻苯二甲酸二乙酯（DEP）相对含量较高,约占PAEs总量的94%以上.拆解地区蚕豆（Vicia faba L.）中PAEs总量明显高于同地区其他植物,且土壤和所有植物体内PAEs浓度相关性均不显著(P>0.05).与美国国家环保局制定的土壤PAEs治理标准比较,台州电子垃圾拆解地区土壤PAEs污染较为严重.     

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.     

城市污泥中邻苯二甲酸酯(PAEs)的厌氧微生物降解

邻苯二甲酸酯(PAEs)是城市污泥中普遍存在的一类具有内分泌干扰性作用的有机污染物.研究污泥厌氧生物处理过程中PAEs的微生物降解对保障污泥农用的安全性十分必要.本文以污泥中两种主要的PAEs——邻苯二甲酸二丁酯(DBP)和邻苯二甲酸(2-乙基己)酯(DEHP)为研究对象,通过比较PAEs在污泥厌氧消化系统与发酵产氢系统中降解过程的差异及系统污泥特性的变化,分析不同污泥厌氧生物处理系统中影响PAEs降解的可能因素.结果表明: 在污泥厌氧发酵系统中,DBP在6 d内降解率达99.6%, DEHP在整个14 d的培养期间也降解了46.1%;在发酵产氢系统中,在14 d培养过程DBP的降解率仅为19.5%,DEHP则没有明显的降解.与厌氧消化系统相比,PAEs在发酵产氢系统中的降解受到明显抑制,这与发酵产氢过程中微生物量下降、革兰氏阳性菌/革兰氏阴性菌(G⁺/G^-)和真菌/细菌变小及挥发性脂肪酸(包括乙酸、丙酸及丁酸)浓度升高有关.     

Comparison on the removal of phthalic acid diesters in a bioreactor landfill and a conventional landfill

The removal of phthalic acid diesters (PAEs) in municipal solid waste (MSW) from two simulated landfill reactors was compared. The results showed that the original concentrations of dimethyl phthalate (DMP), dibutyl phthalate (DBP) and dioctyl phthalate (DOP) in the refuse were 3.3 μg g⁻¹, 18.5 μg g⁻¹ and 0.8 μg g⁻¹, respectively. The concentrations of DMP and DBP in both leachate and refuse decreased greatly during decomposition of the waste in both reactors. The major loss of PAEs from the landfill occurred during an active methanogenic environment with a low concentration of volatile fatty acids (VFA) in the later period. In addition, strong correlations were found between the residual DMP, DBP concentrations and the biologically degradable material (BDM) of the refuse. Finally, PAEs degraded more rapidly in the landfill that was operated in conjunction with the methanogenic reactor when compared to the landfill with direct leachate discharge.     

Isolation and characterization of four di-<Emphasis Type="Italic">n</Emphasis>-butyl phthalate (DBP)-degrading <Emphasis Type="Italic">Gordonia</Emphasis> sp<Emphasis Type="Italic">.</Emphasis> strains and cloning the 3,4-phthalate dioxygenase gene

Four aerobic bacterial strains capable of utilizing di-n-butyl phthalate (DBP) as the sole source of carbon and energy were isolated from river sediments. Based on the morphology, biochemical characterization, and 16S rRNA gene sequence analysis, they were identified as Gordonia sp. The optimal conditions for DBP degradation by these strains were found to be pH 7.0, 30°C, and stirring at 175 rpm. These four strains could degrade, respectively, 96, 98, 98, and 78% of DBP (400 mg l⁻¹) as well as dimethyl phthalate (DMP), diethyl phthalate (DEP), di-n-octyl phthalate (DOP), di-isooctyl phthalate (DIOP), and di-isononyl phthalate (DINP). Furthermore, partial sequences of the gene for 3,4-phthalate dioxygenase were obtained from all four strains. To our knowledge, this is the first time that the 3,4-phthalate dioxygenase gene has been successfully cloned from Gordonia sp.     

Bioassay and Identification of Root Exudates of Three Fruit Tree Species

A laboratory bioassay was designed to determine the aileiopathic potential of root exudates of three fruit tree species on apple germination. The results showed that root exudates of apple （Malus pumila L.） and peach （Prunus persica L.）, each at concentrations of 0.02 and 0.2 mg/L, inhibited germination and radicle growth of apple seeds by 56.7%, 60.7%, 51.5%, and 59.3%, respectively. The corresponding shoot growth inhibition rate was 49.5%, 46.7%, 36. 4%, and 44%, respectively. Root exudates of jujube （Ziziphus jujuba Mill.） had no significant effect on apple seeds. Qualitative determination of root exudates of apple, peach, and jujube tree was developed with gas chromatography-mass spectrometry. The root exudates of apple seedlings mainly contain organic acids, glycol, esters, and benzenphenol derivatives. Peach root exudates contained phenolic acids and benzenphenoi derivatives in addition to two unidentified compounds. The root exudates of jujube did not contain any phenolic acids.     

Effects of constructed wetland system on the removal of dibutyl phthalate (DBP)

Phthalic acid esters (PAEs) have become widely diffused in the environment via the manufacturing process. Numerous experiments have shown that the bioaccumulation of PAEs occurred in the aquatic and terrestrial food chain; meanwhile, it was found that some of PAEs were considered as potential carcinogens, teratogens and mutagens. In this research, two vertical/reverse-vertical flow constructed wetland systems were set up to study its removal efficiency of dibutyl phthalate (DBP) pollution. The results showed that the constructed wetland system could remove DBP effectively, and the removal rates reached nearly 100%. Substrate microorganism and enzymatic activities probably played key roles during DBP removal, and the removal of DBP probably mainly took place in the upper layer of chamber A in the constructed wetland systems.     

Biodegradation of phthalic acid esters (PAEs) in soil bioaugmented with acclimated activated sludge

The degradation characteristics of four phthalic acid esters (PAEs), i.e. di-methyl phthalate (DMP), di-ethyl phthalate (DEP), di-n-butyl phthalate (DBP) and di-n-octyl phthalate (DOP) in the soil augmented with acclimated sludge was investigated in order to assess the efficacy of bioaugmentation as a strategy for remediating PAEs-contaminated soil and correlate the degradation rate of PAEs with their alkyl chain length. The results demonstrated that PAEs with shorter alkyl chain, that is, DMP and DEP could be degraded more quickly than DBP and DOP. The degradation of four PAEs in the soil conformed to a first-order reaction kinetic equation. The half-lives of PAEs degradation decreased significantly with increasing carbon number of the alcohol moiety. Half-lives decreased from 2.29 days for DMP to 28.4 days for DOP when the carbon number of alkyl chain increased from one for DMP to eight for DOP. The degradation rate of PAEs and the corresponding half-lives could correlate with the alkyl chain length and their octanol–water partition coefficients (K_ow) quite well for the four PAEs tested in this study.