重金属镉对红树植物白骨壤和桐花树幼苗生理特性的影响

通过砂泥栽培实验研究了红树植物桐花树和白骨壤幼苗在含Cd 0.6～30 mmol·L~(-1)系列海水培养液中某些生理特性的变化。当培养液中Cd浓度为0.6 mmol·L~(-1)时桐花树和白骨壤幼苗生长正常,叶绿素含量和光合速率变化不大。当高于12 mmol·L~(-1)时,除桐花树和白骨壤幼苗除POD酶活性越来越高之外,叶绿素含量、光合速率、SOD、CAT酶活性均不断减弱,而且浓度愈高,这些指标下降愈大。结果表明Cd对红树植物桐花树和白骨壤幼苗具有毒害作用,Cd浓度愈高对其毒害愈严重,两种红树植物比较,桐花树抗重金属镉毒害的能力大于白骨壤。     

挖捕泥丁对红树植物白骨壤幼苗生长影响的模拟

沿海群众为了增加收入挖掘林下滩涂海洋经济动物可口革囊星虫,这是导致中国红树林退化的一个重要原因.本文研究了挖掘深度、弧度和频率3个因素对1年生白骨壤幼苗的苗高、基径、单叶面积、比叶面积、生物量和死根干质量等生长指标的影响,了解挖掘活动对红树林生长的影响机理,并筛选出红树林健康状况的评估指标.结果表明:挖掘活动使白骨壤幼苗的苗高和基径增长量、单叶面积、比叶面积和生物量显著减少,而死根干质量显著增加;挖掘深度和弧度对幼苗生长具有明显影响,但频率的影响不显著;当挖掘深度＜5 cm、弧度＜240°、每月2次以下时,对幼苗的伤害较轻,而挖掘深度＞5 cm则会对幼苗造成严重影响.     

镉胁迫对白骨壤幼苗钾钠镁吸收与分配的影响

采用砂基栽培,研究重金属镉(Cd)不同胁迫浓度(0、0.5、5、25、50、100和150mg·L-1)和胁迫时间(45和90 d)对红树植物白骨壤幼苗钾钠镁吸收与分配的影响.结果表明:白骨壤各器官对Cd的吸收和累积均表现为随Cd胁迫浓度上升而增加,随胁迫时间增加而增加的趋势;进入植物体内的Cd主要富集在根部,其次是凋落子叶,在150 mg·L-1浓度下分别占累积总量的66.9％和16.3％,这对减少Cd对植物全株的危害具有积极意义.受Cd胁迫影响90 d后,根和茎中Na含量呈上升趋势,叶和子叶中呈下降趋势;根和子叶中K含量呈下降趋势,茎和叶中变化不明显;Cd胁迫90 d后各器官(根、茎、叶和子叶)中Mg含量均低于对照,且与Cd含量呈显著负相关.     

人工污水对白骨壤幼苗生理生态特性的影响

探讨了3种不同浓度污水对白骨壤幼苗叶片叶绿素含量、过氧化氢酶活性、游离脯氨酸含量、含水量、相对电导率与植株生物量、茎径和茎高生长量等生理生态指标的影响。结果表明,正常浓度和5倍浓度污水对植株无不良影响,并可促进植株生长;10倍浓度污水对植株各生理生态指标有显着影响,但植株最终可维持正常生长。研究表明,白骨壤对污水具有较强的适应性和耐受性。     

重金属铬(Ⅲ)对红树植物白骨壤幼苗生长的影响

采用砂基栽培,研究重金属铬(Ⅲ)不同胁迫强度(0、100、200、300、400、500、600、800 mg·L-1)和胁迫时间(25、45和150 d)条件下,对红树植物白骨壤(Avicennia marina)成熟胚轴萌发及幼苗生长的影响.结果表明:Cr(Ⅲ)胁迫(0～800 mg·L-1)对白骨壤成熟胚轴的初期萌发无明显的影响.胁迫栽培45 d时,随着Cr(Ⅲ)浓度的提高,白骨壤幼苗苗高生长、根系生长及各组分生物量和总生物量均表现出逐渐下降的趋势,但下降幅度不大.当胁迫时间延长至150 d时,Cr(Ⅲ)浓度在100 mg·L-1时对幼苗的生长影响不明显,而浓度在100 mg·L-1以上,达到200 mg·L-1以上水平,则对幼苗根系生长、苗高、叶片大小及生物量生长均具有明显抑制的作用,并将随胁迫时间的增加而加剧.     

红树植物白骨壤叶片的解剖结构及其生态适应性

运用石蜡切片的方法对红树植物白骨壤的叶片进行解剖学的观察和研究。结果表明:白骨壤的叶为异面叶;上表皮为复表皮,有厚的角质膜及下皮层;下表皮上有大量的泌盐腺毛;栅栏组织多层,约占叶肉组织的2/3,海绵组织退化;机械组织和输导组织均很发达。反映了白骨壤叶片的结构与其生活的海生环境高度相适应。     

中国北部湾白骨壤红树林的虫害与研究对策

危害北部湾白骨壤的主要害虫是广州小斑螟 (Oligochroacantonella)幼虫、双纹白草螟 (Pseudcatharylladuplicella)幼虫和广翅蜡蝉 (Euricaniasp.)成虫。广州小斑螟喜食害白骨壤叶片 ,造成大量叶片的枯干和枝条的死亡 ,最高可导致林木 73 %的叶面积危害。室内培养发现广大腿小蜂 (Brachymeriasp .)、啮小蜂 (Tetrastichussp .)可寄生广州小斑螟的蛹 ,终止其羽化过程。虫害具有突发性、专一性、快速扩展的特点。海水淹没可明显抑制虫害。讨论了虫害的发源、爆发的原因、生态效应和防治途径 ,并指出深入研究的方向     

利用mRNA差别显示技术分离盐胁迫下红树植物白骨壤耐盐相关cDNA

从福建龙海红树林自然保护区采集白骨壤的隐胎生果实 ,在实验室分别置于 0‰盐度海水和 50‰盐度海水进行沙培。分别取叶片 ,提取纯化RNA。通过锚定引物OligodT₁₂ GC反转录和 8个 10核苷酸随机引物进行PCR扩增 ,经 8%非变性聚丙烯酰胺凝胶电泳后发现了 3个差异DNA片段只在高盐培养条件的白骨壤基因组中表达 ,而在无盐培养条件中没有出现。这 3个差异cDNA片段分别命名为csrg1(600bp)、csrg2(550bp)、csrg3(480bp)。3个差异cDNA片段的RNA杂交结果显示 ,只有csrg1片段存在明显差异 高盐中有杂交斑点 ,无盐中无杂交斑点 ;而其余 2个片段在高盐和无盐条件下都没有杂交斑点出现。从而表明csrg1就是耐盐相关cDNA。进一步将csrg1片段克隆 ,并进行DNA序列分析。全序列在GenBank中查询后 ,未发现相关同源片段。耐盐相关cDNA片段的获得 ,将为分离全长耐盐基因 ,搞清该基因表达调控的机理提供条件.     

汞胁迫对白骨壤(Avicennia marina)幼苗生理生态的影响

为了解红树植物的重金属抗性机制,对白骨壤(Avicennia marina)幼苗进行不同浓度Hg2+(1、5、10、50、100 mg·L-1)的胁迫实验,测定并分析了Hg2+胁迫对白骨壤幼苗叶片的光合作用和抗氧化酶活性的影响.结果表明:叶片净光合速率随着胁迫时间的延长而降低,高浓度(≥150 mg·L-1)Hg2+胁迫下叶片的净光合速率低于中低浓度胁迫,且高浓度胁迫的叶片净光合速率在48 h后快速下降;叶片净光合速率与胞间二氧化碳浓度呈极显著负相关,叶绿素含量随Hg2+浓度的增加而降低.气孔导度在不同浓度胁迫下反应不同,低浓度Hg2+对白骨壤幼苗光合的影响可能是气孔因素,中高浓度Hg2+对白骨壤幼苗光合作用的抑制主要是非气孔因素.低浓度Hg2+胁迫,白骨壤幼苗叶片SOD、POD活性升高,表现了一定的抗逆性,而高浓度表现为抑制作用,基本在100 mg·L-1 Hg2+胁迫下活性达到最低值.说明Hg2+可以抑制白骨壤叶片的光合活性,高浓度Hg2+胁迫削弱了白骨壤的活性氧清除能力,植物极易受到伤害.     

污水排放对白骨壤凋落叶的影响

一年中白骨壤各处理组凋落叶总生物量大小顺序为FW >NW >CL >TW ;白骨壤各污水处理组凋落叶含N量和含P量均比对照组稍高 ,随污水浓度的上升含N量和含P量呈上升趋势 ;一年中白骨壤植物凋落叶N、P、Zn的含量的多少顺序都为 :FW >NW≈TW >CL ,Cd、Ni、Pb的含量的多少顺序为FW >TW >NW >CL ,各处理组凋落叶重金属的含量都以FW最高 ;各处理组植株元素年归还率平均为 :N 1 9 1 % ,P 2 1 3% ,Cd 2 1 2 % ,Ni2 1 4 % ,Pb 2 3 3% ,Zn 31 5 % ,归还量均较低。     

Leaf and stem anatomical responses to periodical waterlogging in simulated tidal floods in mangrove Avicennia marina seedlings

This study was aimed to evaluate anatomical responses to waterlogging of mangrove seedlings (Avicennia marina (Forsk.) Vierh.) grown in experimentally simulated semidiurnal tides. The following treatments were used: 0, 2, 4, 6, 8, 10 and 12 h submergence period with two daily tidal cycles. With increasing waterlogging duration, the leaf thickness, mesophyll thickness, palisade parenchyma thickness, palisade–spongy ratio and hypodermis thickness decreased, but the mesophyll to leaf thickness ratio, stem and pith diameter, and cortex thickness increased. The tangential vessel diameter, vessel wall thickness in stem and leaf and fiber wall thickness in stem showed a similar tendency in response to waterlogging, remaining constant between 0 and 4 h waterlogging duration, but decreasing with more prolonged waterlogging. When the waterlogging duration exceeded 4 h, no sclerenchyma cells in leaves or gelatinous fibers in stems were observed. The response of these leaf and stem features indicated that water transport and mechanical support could remain relatively stable in the 0–4 h waterlogging duration, but they would be negatively influenced by longer flooding. Tissues for gas exchange were stimulated by waterlogging, while the functions of water storage, photosynthesis, mesophyll conductance were weakened with increasing waterlogging.     

红树白骨壤果实中酚苷类化学成分研究

采用柱色谱、凝胶层析和高效液相色谱分离技术,从白骨壤果实中分离获得6个酚苷类单体化合物。运用波谱分析和文献对照方法,分别鉴定为Rhyncoside A(1)、松柏苷(2)、对羟基苯甲酰葡萄糖(3)、顺式香豆酸-4-O-β-D-吡喃葡萄糖苷(4)、香草酸4-O-β-D-吡喃葡萄糖苷(5)、苯基-β-D-葡萄糖苷(6)。化合物1-6均是首次从该种海洋植物中分离得到。     

An oxidative and salinity stress induced peroxisomal ascorbate peroxidase from Avicennia marina: Molecular and functional characterization

APX (EC, 1.11.1.11) has a key role in scavenging ROS and in protecting cells against their toxic effects in algae and higher plants. A cDNA encoding a peroxisomal ascorbate peroxidase, Am-pAPX1, was isolated from salt stressed leaves of Avicennia marina (Forsk.) Vierh. by EST library screening and its expression in the context of various environmental stresses was investigated. Am-pAPX1 contains an ORF of 286 amino acids coding for a 31.4kDa protein. The C-terminal region of the Am-pAPX1 ORF has a putative transmembrane domain and a peroxisomal targeting signal (RKKMK), suggesting peroxisomal localization. The peroxisomal localization of Am-pAPX1 was confirmed by stable transformation of the GFP-(Ala)(10)-Am-pAPX1 fusion in tobacco. RNA blot analysis revealed that Am-pAPX1 is expressed in response to salinity (NaCl) and oxidative stress (high intensity light, hydrogen peroxide application and excess iron). The isolated genomic clone of Am-pAPX1 was found to contain nine exons. A fragment of 1616bp corresponding to the 5' upstream region of Am-pAPX1 was isolated by TAIL-PCR. In silico analysis of this sequence reveals the presence of putative light and abiotic stress regulatory elements.     

Ecophysiological responses of the mangrove Avicennia marina to trace metal contamination

Growth responses of Avicennia marina seedlings to contamination by different concentrations of two essential (Cu, Zn) and two non-essential (Pb, Hg) trace metals were studied under glasshouse conditions. We tested the hypothesis that soil retention and root ultrafiltration would exclude most of the trace metals, and that those that are absorbed and translocated to the shoots would interfere with plant performance and be excreted via leaf salt glands. One-month-old seedlings were subjected to Cu, Zn, Pb and Hg at concentrations of 0, 40, 80, 120 and 160 μg g⁻¹ sediment for 12 months in a randomized complete block design (n = 6). Photosynthesis was measured at the end of 12 months of trace metal exposure with a portable gas exchange system and chlorophyll fluorescence with a pulse-modulated fluorometer. After morphometric measurements, plants were harvested and analyzed for Cu, Zn, Pb and Hg by atomic absorption spectroscopy. Total dry biomass decreased with increasing trace metal concentration for all metals. In the 160 μg g⁻¹ Cu, Zn, Hg and Pb treatments, total biomass was significantly lower than the control value by 43%, 37%, 42% and 40%, respectively. Decreases in plant height and number of leaves followed trends similar to those for total biomass and ranged from 37% to 60%, compared to the controls. Decreases in chlorophyll content in the trace metal treatments ranged from 50% to 58% compared to the control. Carbon dioxide exchange, quantum yield of photosystem II (PSII), electron transport rate (ETR) through PSII and photosynthetic efficiency of PSII (F_v/F_m) were highest in the control treatment and decreased with increasing trace metal concentrations. Decreases in CO₂ exchange in the 160 μg g⁻¹ treatments for all trace metals ranged from 50% to 60%. Concentrations of all trace metals in plant organs increased with increasing metal concentrations and were higher in roots than in shoots, with concentrations of Cu and Zn being considerably higher than those of Hg and Pb. Qualitative elemental analyses and X-ray mapping of crystalline deposits over the glands at the leaf surfaces indicated that Cu and Zn were excreted from the salt glands, while Hg and Pb were absent, at least being below the limits of detection. These results demonstrate that growth processes are sensitive to trace metals and therefore can be considered as a cost of metal tolerance, but salt glands of this mangrove species do contribute eliminating at least part of physiologically essential trace metals if taken up in excess.     

Genetic diversity of the black mangrove (Avicennia germinans L.) in Colombia

This study analyzed the genetic diversity and patterns of genetic structure in Colombian populations of Avicennia germinans L. using microsatellite loci. A lower genetic diversity was found on both the Caribbean (Ho = 0.439) and the Pacific coasts (Ho = 0.277) than reported for the same species in other locations of Central American Pacific, suggesting the deterioration of genetic diversity. All the populations showed high inbreeding coefficients (0.131–0.462) indicating heterozygotes deficience. The genetic structure between the Colombian coasts separated by Central American Isthmus was high (F_RT = 0.39) and the analyses of the genetic patterns of A. germinans revealed a clear differentiation of populations and no-recent gene flow evidence between coasts. Genetic structure was found within each coast (F_ST = 0.10 for the Caribbean coast and F_ST = 0.22 for the Pacific coast). The genetic patterns along the two coasts appear to reflect a forcing by local geomorphology and marine currents. Both coasts constitute a different Evolutionary Significant Unit, so we suggest for future transplantations plans that propagules or saplings of the populations of the Caribbean coast should not be mixed with those of the Pacific Colombian coast. Besides, we suggest that reforestation efforts should carefully distinguish propagules sources within each coast.     

Differential effects of nitrogen and phosphorus enrichment on growth of dwarf Avicennia marina mangroves

The effects of N and P enrichment were investigated on growth and physiological responses of dwarf Avicennia marina mangroves in a hypersaline (58 ± 8 psu) field site in Richards Bay, South Africa. It was hypothesized that at high salinities mangroves allocate more resources to roots than shoots, and that nutrient enrichment with N and P will shift resource allocation to shoots and enhance growth and productivity. In unvegetated areas of the dwarf zone, 1-year-old A. marina seedlings were planted in pots and enriched bimonthly with N, P, N + P, or remained unfertilized (control-C), and growth and morphology of plants were monitored for 2 years. Enrichment with N and N + P shifted resource allocation to shoots from 38% to 55%, and increased dry biomass accumulation by over 500%, compared to the control treatment. In the N and N + P treatments, plant height, number of leaves, leaf chlorophyll content and photosynthesis increased by over 50%, 330%, 30% and 30%, respectively, compared to the C and P treatments. Enrichment with N and N + P increased N concentrations in roots by over 60% (from 1.0 ± 0.1% to 1.6 ± 0.2% of dry mass) and in shoots by over 100% (from 1.3 ± 0.1% to 2.7 ± 02% of dry mass). Plants enriched with P alone were similar to those of the control. This study has demonstrated that dwarf A. marina in Richards Bay is N limited, and that N enrichment shifts resource allocation from roots to shoots and increases growth and productivity.     

滨豇豆的生态生物学特征

为探究滨豇豆(Vignamarina)的生态生物学特性及其对热带珊瑚岛的适应性,对西沙群岛野生滨豇豆的叶片形态解剖结构、生理特征和营养成分进行了分析。结果表明,滨豇豆具有叶片厚、比叶面积小、栅栏组织发达、气孔密度大、气孔面积指数大等形态特征,对减少蒸腾、保持水分起到重要作用。滨豇豆叶片的SOD活性和脯氨酸(Pro)含量高,丙二醛(MDA)含量低,表明抗氧化能力较强;滨豇豆叶片养分含量适中但其生境土壤养分含量很低,说明其对养分有着良好的吸收利用能力,利于适应贫瘠的环境。因此,滨豇豆具有能够较好地适应珊瑚岛礁高温、干旱、贫瘠生境的形态解剖结构和生理特征,加之其具有良好的固氮和养分利用能力,可作为热带珊瑚岛植被恢复的工具种。     

印度梨形孢对铁皮石斛种子萌发和原球茎生长的影响

为探究印度梨形孢(Piriformospora indica)对铁皮石斛(Dendrobium officinale)种子萌发和原球茎生长的影响,在铁皮石斛种子离体培养和原球茎生长阶段分别接种印度梨形孢,对其形态发育特征和生理特性进行研究.结果表明,接种印度梨形孢的铁皮石斛种子的起始萌发时间提前,接种印度梨形孢的铁皮石...     

纳米管和镉对蚕豆幼苗根系的毒害效应

以蚕豆幼苗为实验材料,采用水培法研究不同浓度(0、2、4、8、16 mg·L~(-1))羟基化多壁碳纳米管(MWCNTs-OH)与10μmol·L~(-1)镉(Cd)单一和联合作用对蚕豆幼苗根系生长、生理及Cd含量的影响。结果表明:(1)单一MWCNTs-OH处理下,随着MWCNTs-OH浓度(2～8 mg·L~(-1))的增加,蚕豆的根长度增加,且■产生速率增加的同时会伴随着SOD、POD活性升高。(2)单一Cd处理的幼苗根系MDA含量和■产生速率均高于对照,其中■产生速率较对照增加了1.98倍。(3)MWCNTs-OH联合处理诱导了蚕豆根■的产生和MDA含量增加,16 mg·L~(-1) MWCNTs-OH和Cd共同作用对蚕豆幼苗根的损伤最大,会促使部分根尖细胞受损脱落,Cd含量明显下降。研究发现,低浓度MWCNTs-OH可促进蚕豆的根生长,降低Cd的毒性;高浓度MWCNTs-OH(16 mg·L~(-1))和Cd对蚕豆幼苗根的致毒性表现为协同效应。