外来木本植物入侵的生态预测与风险评价综述

外来植物引种导致的入侵已经成为当前生物多样性保育和引种工作面临的一个紧要研究课题。综述了木本植物入侵的生态预测和生态风险评价方面的国内外相关研究进展。首先介绍了目前国内外木本植物引种的概况,对木本植物入侵的生态预测基本原理做了较为详细的总结。目前比较被认可的生态预测途径主要包括编辑入侵植物名录利用入侵历史纪录预测、物种特征作为入侵的预测指标、繁殖体压力作为建群概率的决定性因素、环境匹配作为入侵潜力的预测工具及专家意见等,并对物种特征进行了归类和分析。物种特征指标主要包括物种的繁殖和快速生长性状指标、对入侵地区局部条件和干扰体系的适应性指标、生物地理分布指标等,并指出在生态预测中单独使用这些指标是不严谨的,而应当多途径互相结合验证。同时还简介了WRA等几个应用较为广泛的实用性植物入侵风险评价系统。分析了目前国内外在木本植物入侵的生态预测方面面临的一些困难,包括入侵机理的复杂性导致的预测难度增大和可信性下降,所用数据库标准的不统一和更新的困难等,指出在进行木本植物引种的生态预测和风险评价研究的同时,必须加强相关法律法规建设,重视入侵机理研究,完善相关的数据库。出于实际情况的限制,可以借鉴国际上实用性杂草风险分析和有害生物风险分析的方法,逐步建立我国的入侵风险评价系统,以满足目前对木本植物入侵的预测和风险评价的需求。     

Evaluating Human Risk from Exposure to Alkylated PAHs in an Aquatic System

Polycyclic aromatic hydrocarbons (PAHs) are a large class of organic chemicals typically found as mixtures in the aquatic environment from natural, petrogenic, and pyrogenic sources. People can be exposed to PAHs through ingestion or dermal contact with contaminated sediments or through ingestion of finfish and shellfish exposed to contaminated sediments. Although more than 100 PAHs have been identified, human exposure and risk are commonly evaluated for 18 individual PAHs. Other PAHs, such as alkylated PAHs, likely contribute to biological activity of environmental PAH mixtures; however, insufficient toxicity data are available to quantify their potential risk. This article presents an initial evaluation of the potential for human health risk from exposure to alkylated PAHs in sediment and fish. Individual alkylated PAHs have been observed to have potentially mutagenic, tumor-promoting, or carcinogenic activity. However, except for 1-and 2-methylnaphthalene, insufficient toxicity data are available to quantify toxicity or cancer risk from exposure to individual alkylated PAHs or mixtures of alkylated PAHs. This article describes a proposed strategy to better understand the potential human health risk from exposure to alkylated PAHs. Implementation of this strategy will contribute to evaluations of human exposure to complex PAH mixtures in the environment.     

Drought’s impact on Ca,Fe, Mg,Mo and S concentration and accumulation patterns in the plants and soil of a Mediterranean evergreen <Emphasis Type="Italic">Quercus </Emphasis><Emphasis Type="Italic">ilex</Emphasis> forest

We conducted a 6-year field manipulation drought experiment in an evergreen Quercus ilex forest where we simulated the drought predicted by GCM and ecophysiological models for the coming decades (an average of 15% soil moisture reduction). We thereby tested the hypothesis that enhanced drought will change Ca, Fe, Mg, Mo and S availability, concentrations and accumulation patterns in Mediterranean ecosystems. The strongest effects of drought occurred in the soil. Drought increased the total soil concentrations of S, the soil extract concentrations of Fe, Mg and S, the Mg saturation in the soil exchangeable complex and tended to increase the percentage base saturation of the soil exchangeable complex. These increased soil concentrations were related to a decrease of plant uptake capacity and not to an increase of soil enzyme activity, which in fact decreased under drier conditions. Drought increased leaf Mg concentrations in the three dominant species although only significantly in Quercus ilex and Arbutus unedo (20 and 14%, respectively). In contrast, drought tended to decrease Ca in Phillyrea latifolia (18%) and Ca and Fe concentrations in the wood of all three species. Drought increased Ca and Fe concentrations in the roots of Quercus ilex (26 and 127%). There was a slight general trend to decrease total biomass accumulation of nutrients that depend on water flux such as Mg, Fe and S. This effect was related to a decrease of soil moisture that reduced soil flow, and to a decrease in photosynthetic capacity, sap flow, transpiration and growth, and therefore plant uptake capacity under drought observed in Quercus ilex and Arbutus unedo. On the contrary, drought increased Mo accumulation in aboveground biomass in Phillyrea latifolia and reduced Mo accumulation in Arbutus unedo by reducing growth and wood Mo concentrations (51%). Phillyrea latifolia showed a great capacity to adapt to drier conditions, with no decrease in growth, an increase of Mo uptake capacity and a decrease in leaf Ca concentration, which was related to a decrease in transpiration under drought. The results indicate asymmetrical changes in species capacity to accumulate these elements, which are likely to produce changes in inter-specific competitive relations among dominant plant species and in their nutritional quality as food sources. The results also indicate that drought tended to decrease nutrient content in aboveground biomass, mainly through the decrease in growth and transpiration of the most sensitive species and caused an increase in the availability of these nutrients in soil. Thus, drought decreased the ecosystem’s capacity to retain Mg, Fe and S, facilitating their loss in torrential rainfalls.     

Overexpression of HVA1 gene from barley generates tolerance to salinity and water stress in transgenic mulberry (Morus indica)

Late embryogenesis abundant (LEA) proteins are members of a large group of hydrophilic proteins found primarily in plants. The barley hva1 gene encodes a group 3 LEA protein and is induced by ABA and water deficit conditions. We report here the over expression of hva1 in mulberry under a constitutive promoter via Agrobacterium-mediated transformation. Molecular analysis of the transgenic plants revealed the stable integration and expression of the transgene in the transformants. Transgenic plants were subjected to simulated salinity and drought stress conditions to study the role of hva1 in conferring tolerance. The transgenic plants showed better cellular membrane stability (CMS), photosynthetic yield, less photo-oxidative damage and better water use efficiency as compared to the non-transgenic plants under both salinity and drought stress. Under salinity stress, transgenic plants show many fold increase in proline concentration than the non-transgenic plants and under water deficit conditions proline is accumulated only in the non-transgenic plants. Results also indicate that the production of HVA1 proteins helps in better performance of transgenic mulberry by protecting membrane stability of plasma membrane as well as chloroplastic membranes from injury under abiotic stress. Interestingly, it was observed that hva1 conferred different degrees of tolerance to the transgenic plants towards various stress conditions. Amongst the lines analysed for stress tolerance transgenic line ST8 was relatively more salt tolerant, ST30, ST31 more drought tolerant, and lines ST11 and ST6 responded well under both salinity and drought stress conditions as compared to the non-transgenic plants. Thus hva1 appears to confer a broad spectrum of tolerance under abiotic stress in mulberry.     

Persistent organic pollutants in Pakistan: Potential threat to ecological integrities in terms of genotoxicity and oxidative stress

As a consequence of both increasing population and industrialization in agro-economic sector, Pakistan has inevitably been confronted by multicomplex environmental challenges. Owing in part to poor regulatory framework, pollution due to persistent organic pollutants (POPs) has caused serious problems throughout the country. Resultantly, extensive use of POPs is causing vigorous deterioration of environment and human health. The current study addresses: (1) the general information on associated ecological effects and toxicity assessment by meta-analysis for local fauna and flora (2) their respective occurrence in living organisms; and (3) sources and distribution patterns of various POPs classes in environmental compartments of Pakistan. Based on the study, it can be concluded that the environment of Pakistan is highly contaminated with organochlorine pesticides (OCPs), polychlorinated biphenyls (PCBs), polybrominated diphenyl ethers (PBDEs), dechlorane plus (DP), and polychlorinated naphthalenes (PCNs), which is further supported with the meta-analysis. Nevertheless, unavailability of environmental quality standards and food safety for POPs render it a forthcoming challenge of multicompartment toxicity exposure. Therefore, strategies must be planned for risk assessment of biologically active POPs, while the POP waste inventory should be elevated, along with the necessary measures to promote appropriate handling and treatment of POP as a matter of prime importance.     

Low YKL-40 in chronic heart failure may predict beneficial effects of statins: analysis from the controlled rosuvastatin multinational trial in heart failure (CORONA)

Context and objective: To evaluate if YKL-40 can provide prognostic information in patients with ischemic heart failure (HF) and identify patients who may benefit from statin therapy.

Materials and methods: The association between serum YKL-40 and predefined outcome was evaluated in 1344 HF patients assigned to rosuvastatin or placebo.

Results: YKL-40 was not associated with outcome in adjusted analysis. In YKL-40 tertile 1, an effect on the primary outcome (HR 0.50, p?=?0.006) and CV death (HR 0.54, p?=?0.040) was seen by rosuvastatin in adjusted analysis.

Conclusions: A beneficial modification of outcome was observed with statin therapy in patients with low YKL-40 levels.     

Space use of a non-native species,the European hare (<Emphasis Type="Italic">Lepus europaeus</Emphasis>), in habitats of the southern vizcacha (<Emphasis Type="Italic">Lagidium viscacia</Emphasis>) in Northwestern Patagonia,Argentina

Two medium-sized herbivores with high trophic overlap coexist on rocky outcrops in the Patagonian landscape: the southern vizcacha (Lagidium viscacia), which is a native rock specialist, and the European hare (Lepus europaeus), which is a non-native species. We determined the patterns of space use related to distance from outcrops and analyzed spatial overlap between the two species. There were significant differences between the two species in the use of space adjacent to outcrops. The southern vizcacha mainly uses short and medium distances from the outcrop (up to 40 m), whereas the hare’s greatest activity was recorded at distances greater than 50 m. However, there is a partial overlap at medium distances (30–40 m) among both herbivores. Although, in general terms, there is no significant spatial overlap between hares and southern vizcachas, their biological characteristics and the high dietary overlap between the species allow us to predict that, if resources become scarce, the hare could extend its area of activity, as what happens elsewhere, and exploit food resources near outcrops, increasing the vulnerability of vizcacha colonies.     

腐殖酸对小麦抗旱性的生理效应

在干旱气候条件下,喷施腐殖酸钠（ＨＡ）、黄腐酸钠（ＦＡ）可降低土壤水分损耗,提高小麦叶片持水能力,叶片细胞超氧物歧化酶（ＳＯＤ）、过氧化氢酶（ＣＡＴ）活性明显提高,丙二醛（ＭＤＡ）含量和电解质渗出率明显降低,可减缓叶绿素降解,增强光合速率和光合产物积累,延缓植株衰老,小麦抗旱性增强,千粒重增加．     

Genomic architecture of autism from comprehensive whole-genome sequence annotation

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