Development and polymorphism of simple sequence repeat DNA markers for Bruguiera gymnorrhiza (L.) Lamk

Microsatellite markers of Bruguiera gymnorrhiza were developed. Fifty‐four of 161 clones were found to contain microsatellite repeats. Primer pairs were designed for 20 of these clones according to their sequence data. Of these, seven primers showed polymorphism for 32 individuals from Iriomote Island, Japan. Two to five alleles per locus were detected, and the observed heterozygosities ranged from 0.031 to 0.500. Cross‐species amplification using five of the seven primers also worked well for B. cylindrica and B. parviflora. Because our previous study reported very low levels of genetic diversity for allozymes in the same Iriomote population, these microsatellite markers should be a powerful tool for various kinds of genetic analysis.     

Effect of NaCl on photosynthesis,salt accumulation and ion compartmentation in two mangrove species, Kandelia candel and Bruguiera gymnorhiza

In a 4-week study, we investigated the effects of increasing soil NaCl (100–400 mM) on photosynthesis, salt uptake and transport, and intracellular compartmentation of Na⁺ and Cl⁻ in 1-year-old seedlings of Kandelia candel (L.) Druce and Bruguiera gymnorhiza (L.) Savigny. Increasing NaCl stress significantly elevated Na⁺ and Cl⁻ in root and shoot tissues (stem + leaf) of both species, but B. gymnorhiza showed a rapid Na⁺ accumulation upon the initiation of salt stress and leaves contained 90% more Na⁺ and 40% more Cl⁻ than K. candel at the end of experiment. Net photosynthetic rate (Pn) declined with increasing salinity, and the most marked reduction occurred after exposure of mangrove seedlings to a severe salinity, 400 mM NaCl. However, the inhibitory effects of severe stress varied with species: Pn decreased by 80% in K. candel whereas in B. gymnorhiza the decline was 60%. The quantum yield (AQY) and carboxylation efficiency (CE) response to severe salinity showed a trend similar to Pn, in which a lesser reduction of AQY and CE was observed in B. gymnorhiza (33–35%), as compared to K. candel (43–52%). X-ray microanalysis of leaf mesophyll cells showed evidence of distinct vacuolar compartmentation of Na⁺ in K. candel but Cl⁻ in B. gymnorhiza after seedlings were subjected to 100 mM NaCl for 7 d. Moreover, Na⁺ within cell wall, cytoplasm, vacuole and chloroplast remained 23–72% lower in stressed B. gymnorhiza as compared to K. candel. In conclusion, B. gymnorhiza exhibited effective salt exclusion from chloroplasts although increasing salt stress caused a rapid and higher build up of Na⁺ and Cl⁻ in the leaves. We suggest that the salt-induced Pn reduction in the two mangrove species is correlated with the ability to exclude Na⁺ and Cl⁻ from the chloroplast, rather than with the bulk leaf salt concentration.     

Global Patterns of Pre-Dispersal Propagule Predation in Mangrove Forests1

Mangroves in disparate families produce viviparous seedlings (propagules) that are attacked by many crab and insect predators both before and after dispersal. While post-dispersal predation is viewed as an important factor in structuring many mangrove communities, pre-dispersal predation rates and agents have been characterized for few species. Ten species of mangrove and 3299 propagules were surveyed for pre-dispersal propagule predation at 42 sites around the world. Pre-dispersal predation rates were variable among sites and species, ranging from 0 to 93 percent within sands, with a global total predation rate of 23.3 percent (across all propagules examined) and a mean level of 28.3 percent across sites. Grapsid crabs, Coleoptera and Lepidoptera were the primary predators identified. Forests near human population centers and stands occurring at high intertidal sites exhibited higher levels of propagule predation than those in unpopulated or low-intertidal sites. Predation rates on a species were weakly, negatively correlated with conspecific seedling density at a site. To explore temporal variation in, and ramifications of pre-dispersal predation for propagule growth and abscission dynamics, Rhizophora mangle propagules were monitored over two years at three sites in Belize, Central America. Predation did not significantly reduce hypocotylar growth of germinated propagules on the parent tree, but nearly doubled the abscission rate of premature propagules. Pre-dispersal propagule predation is a ubiquitous feature of mangrove forests world-wide, and must be accounted for in estimates of reproductive output, stand health, and propagule availability for forestry and restoration efforts.     

海莲、秋茄两种红树群落能量的研究

 本文应用热值测定,对中国两种典型红树群落,即海南岛的海莲群落及福建九龙江口的秋茄群落样品热值、群落能量现存量、能量固定量以及太阳能转化效率进行了测定和分析．结果表明：(1)红树群落各组分样品之间热值有一定的差异;一般叶、花的热值较高,而根、树皮的热值较低。(2)群落能量现存量海莲群落(1984年1月)高达178,627kcal／m2,秋茄群落为70,547kcal／m2,群落能量在不同组分以及不同高度层次上均有不同的分配比。(3)海莲群落(1983)、秋茄群落(1982)能量年净固定量分别为15,772kcal／m2和10,456kcal/m2,相应地对林地太阳光合有效辐射能的转化效率依次为3.01％和2.01％;红树群落比其他植物群落具有较高的能量固定能力及太阳能转化效率。     

深圳湾红树木榄根系生物量及空间分布格局

采用分层挖掘法,对深圳湾乡土种红树植物木榄不同活力和径级根系生物量及相关底泥性质的空间分布格局进行了研究。结果表明:木榄人工林平均总根系生物量为61.23 t·hm~(-2),其中活根生物量占86.42%,死根占13.58%。在活根中,粗根(直径10 mm)所占比例最高(84.57%),其次为细根(2~5 mm,5.84%)、极细根(2 mm,4.94%)和中根(5~10 mm,4.66%)。木榄总根系生物量从基部到树冠落水线处递减,生物量分别为77.54 t·hm~(-2)(基部)、22.88 t·hm~(-2)(中部)和16.15 t·hm~(-2)(边缘);基部直径10 mm的活根生物量为中部和边缘活根生物量的5倍以上;随着水平距离的增加,2 mm根系生物量占相应距离处活根生物量的比例增加。垂直分布以中下层(20~60 cm)居多,分别占相应水平距离处总根系生物量的80.89%(基部)、73.41%(中部)和71.76%(边缘);总根系生物量分布主要受水平距离的影响(P0.05)。底泥含水量、容重、p H和电导率的变化范围分别为30.66%~35.86%、1.23~1.40 g·cm-3、5.75~7.01 S·m~(-1)和0.22~0.37 S·m~(-1),其中底泥容重与不同活力根系生物量呈显著负相关(P0.05),是影响木榄根系生物量及其空间分布的主要环境因子。该研究结果为福田红树林地下碳分配、储量及周转速率等进一步研究提供了科学依据。     

引进红树拉关木和两种乡土红树离子平衡及光合作用的比较研究

为了比较引进红树与乡土红树的耐盐性差异,该研究以引进红树植物拉关木(Laguncularia racemosa)和乡土红树植物木榄(Bruguiera gymnorrhiza)与秋茄(Kandelia obovata)幼苗作为实验材料,分析其在不同Na Cl浓度(100、200、300、400 mmol·L~(-1))处理下各器官离子浓度(Na~+、Cl~–、K~+、Ca~(2+)和Mg~(2+))和叶光合作用的变化。结果表明:(1)高盐胁迫(400 mmol·L~(-1)Na Cl,28 d)处理下,拉关木根系Na~+增幅较小,秋茄根、叶Cl~–含量增幅均高于木榄和拉关木,说明拉关木在较高的盐浓度时能限制根系对Na~+、Cl~–的吸收,减少向地上部分运输。(2)高盐胁迫均增加3种红树根、叶的K~+浓度(木榄叶K~+略有降低,差异不显著),表明3种红树均可吸收K~+,来限制Na~+对植物的伤害;同时,降低3种红树根Ca~(2+)浓度,但拉关木根Ca~(2+)下降幅度小于秋茄和木榄,说明拉关木具有更强的防止Ca~(2+)流失的能力。(3)拉关木根维持Na~+/K~+、Na~+/Ca~(2+)平衡的能力强于秋茄和木榄。(4)高盐胁迫引起秋茄与木榄光合速率均降低,而拉关木光合速率却增加了54.1%。综上所述,拉关木能限制根系对Na Cl的吸收,有效维持Na~+/K~+、Na~+/Ca~(2+)的平衡,并保持较高的光合速率,这表明拉关木与木榄和秋茄相比具有更高的耐盐性。     

Isolation,Synthesis and AChE Inhibitory Potential of Some Novel Cinnamyl Esters of Taraxerol,the Major Metabolite of the Mangrove Bruguiera cylindrica

Systematic chemical screening of the leaves of Bruguiera cylindrica, the tree mangrove of Rhizophoraceae family, afforded five single and pure compounds. The structures of the isolated compounds were established by their spectroscopic data as taraxerol ( 1 ), 3β‐(E)‐coumaroyltaraxerol ( 2 ), 3β‐(Z)‐coumaroyltaraxerol ( 3 ), β‐sitosterol ( 4 ), and eicosanol ( 5 ). In view of significant accumulation and interesting biological activities, taraxerol ( 1 ) was chemically transformed to synthesize a series of ten cinnamyl esters in very good to excellent yields. The synthesized analogues along with the parent compound were evaluated for their AChE inhibitory potential, BBB permeability and cytotoxicity against Neuro 2A cell line. Among the tested samples, compound 9 showed promising AChE inhibition with significantly low IC₅₀ values, low cytotoxicity and high BBB permeability. Hence, compound 9 can be considered as a lead molecule for further development as potent AChE inhibitor.     

Effects of Season, Rainfall, and Hydrogeomorphic Setting on Mangrove Tree Growth in Micronesia

Seasonal patterns of tree growth are often related to rainfall, temperature, and relative moisture regimes. We asked whether diameter growth of mangrove trees in Micronesia, where seasonal changes are minimal, is continuous throughout a year or conforms to an annual cycle. We installed dendrometer bands on Sonneratia alba and Bruguiera gymnorrhiza trees growing naturally within mangrove swamps on the islands of Kosrae, Federated States of Micronesia (FSM), Pohnpei, FSM, and Butaritari, Republic of Kiribati, in the eastern Caroline Islands of the western Pacific Ocean. Trees were remeasured monthly or quarterly for as long as 6 yr. Annual mean individual tree basal area increments ranged from 7.0 to 79.6 cm²/yr for all S. alba trees and from 4.8 to 27.4 cm²/yr for all B. gymnorrhiza trees from Micronesian high islands. Diameter increment for S. alba on Butaritari Atoll was lower at 7.8 cm²/yr for the one year measured. Growth rates differed significantly by hydrogeomorphic zone. Riverine and interior zones maintained up to seven times the annual diameter growth rate of fringe forests, though not on Pohnpei, where basal area increments for both S. alba and B. gymnorrhiza were approximately 1.5 times greater in the fringe zone than in the interior zone. Time-series modeling indicated that there were no consistent and statistically significant annual diameter growth patterns. Although rainfall has some seasonality in some years on Kosrae and Pohnpei and overall growth of mangroves was sometimes related positively to quarterly rainfall depths, seasonal diameter growth patterns were not distinctive. A reduced chance of moisture-related stress in high-rainfall, wetland environments may serve to buffer growth of Micronesian mangroves from climatic extremes.     

红树植物人工湿地对生活污水的净化效果

研究了潜流型海桑（Sonneratia caseolaris）人工湿地、桐花树（Aegiceras corniculatum）人工湿地和木榄（Bruguiera gymnorrhiza）人工湿地对生活污水的净化效果。一年来,3种红树植物人工湿地对BOD5、CODCr、TP、TN、NH4^＋-N和NO2^--N的平均去除率分别达到83%、71%、41%、55%、50%和84%以上。人工湿地各处理周期之间,BOD5和CODCr去除率波动较小,而TP、TN、NH4^＋-N和NO2^--N去除率波动较大。3种红树植物人工湿地对各种污染物的净化效果存在一定的差异。海桑人工湿地和桐花树人工湿地对BOD5、CODCr、TP、TN和NH4^＋-N去除率明显高于木榄人工湿地,而海桑人工湿地和桐花树人工湿地相比较,除TP外,BOD5、CODCr、TN和NH4^＋-N去除率没有显著差异。人工湿地单一处理周期内,去除率随水力停留时间（HRT）的延长而增加。BOD5、CODCr、TN和NH4^＋-N在HRT为1d和2d的去除率分别为HRT为3d去除率的54%-65%和73%-84%,NO2^--N在HRT为1d和2d的去除率分别达到了HRT为3d的70%-81%和85%-94%,而TP在HRT为1d和2d的去除率分别只有HRT为3d的39%-50%和65%-74%。另外,红树植物人工湿地与风车草（Cyperus alternifoliu）人工湿地相比,前者的BOD5、CODCr、TP、TN和NH4^＋-N去除率明显小于后者（P〈0.05）。总体上看,3种红树植物人工湿地对生活污水的净化效果呈现海桑人工湿地≈桐花树人工湿地〉木榄人工湿地。     

盐胁迫对木榄幼苗各器官热值、能量积累及分配的影响

研究了人工培养条件下基质盐度对红树植物木榄(Bruguiera gymnorrhiza)幼苗的热值、干物质及能量积累的影响.结果表明,木榄幼苗干物质和能量的积累存在低盐促进和高盐抑制的现象,其最大值出现于盐度10mg·g^-1处;随基质盐度的提高,木榄幼苗的干物质和能量积累倾向于叶片及细根等光合作用场所和养分吸收器官,木榄幼苗各器官干重热值及去灰分热值有不同的变化规律,其中叶片热值的变化规律能较好地反映木榄幼苗抗盐性的变化情况.本文从能量学角度探讨了红树植物的抗盐生理生态.