台风利奇马对城市淡水系统中微生物群落和抗生素耐药性基因的影响

【背景】极端天气事件(如台风)带来的强风和降水,会给水生生态系统造成短暂和持久的影响。然而,很少有研究关注台风对水生微生物群落和抗生素耐药性基因(antibiotic resistance genes,ARGs)的影响。【目的】对台风前后城市淡水水域的微生物群落和抗性基因组成进行研究分析,更好地认识极端天气对淡水生态系统的干扰。【方法】在台风前后从4个地点采集了水样,通过宏基因组分析,检测了台风利奇马对温州休闲水域微生物群落和抗性基因的影响。除水生微生物群落和抗性基因外,还分析了每个采样点的物理、化学参数,包括温度、pH、溶解氧、叶绿素a、可溶性活性磷、硝酸盐、亚硝酸盐和铵。【结果】台风登陆后,大多数地点的pH、溶解氧和叶绿素a都有所增加。然而,台风对九山湖的影响要弱于对三垟湿地的影响。台风登陆后,变形菌门、蓝菌门和拟杆菌门的相对丰度增加,而放线菌门的相对丰度下降。在属水平上,栖湖菌的微生物多样性和相对丰度显著增加。在所有的环境因子中,铵是影响微生物群落结构的最重要的环境因子。另外,在所有样本中均检测到35个机会性致病菌类群。台风后,铜绿假单胞菌的相对丰度增加。ARGs显示了空间(采样点间)和时间(台风前后)的变化。冗余分析表明,水总无机氮是影响抗性基因分布的主要环境因子。【结论】这些发现为极端天气(如台风)如何影响淡水系统中的微生物群落和抗性基因提供了新的见解。台风登陆增加了城市淡水系统的公共安全风险,因此,检验检疫方法和手段应该前移,加强对环境健康安全的评价和分析,这将有助于减轻抗生素耐药性和致病菌扩散的风险。     

“海棠”台风气流场对褐飞虱北迁路径的影响

基于GIS、GrADS软件和HYSPLIT 4.8轨迹模式,分析了0505号台风“海棠”发生期间（2005年7月19—21日）中国10个省42个虫情观测点的逐日灯诱褐飞虱虫量、850 hPa等压面的风场和20个虫情监测点的褐飞虱迁飞轨迹.结果表明：台风“海棠”登陆中国后,改变了引导褐飞虱向北迁飞的西南气流,造成风场在台风西南部的辐合和大范围的转向,阻止了褐飞虱的向北迁飞,迫使其在某些区域集中迫降;850 hPa等压面上切变线附近是褐飞虱集中降落的区域;在台风衰亡时期,台风东南部气流暖式切变区是大量降虫的区域;台风整体登陆后,西南气流的再次建立,造成褐飞虱的大量北迁.     

雷州半岛灯楼角珊瑚礁的生态特征与资源可持续利用

分布于雷州半岛西南部灯楼角的珊瑚礁,自海向陆可分为6个生态带,已鉴定出现代活石珊瑚(Scleractinia) 13科2 5属39种3未定种。该珊瑚礁位于热带北缘,附近人口密集,它的发育受自然因素和人类活动双重制约。气候方面,近4 2 a来的温度总体上升有利于本区珊瑚礁的发育,而台风活动对本区珊瑚礁可能有负面的影响;人类活动对本区珊瑚礁的影响表现为旅游业的快速发展与保护行动滞后威胁珊瑚礁、渔业和养殖业影响珊瑚礁、作为建筑材料使用而破坏珊瑚礁等3个方面。作为一种重要的海洋生态资源,本区珊瑚礁若得以科学保护,将具有广阔的可持续利用前景     

Habitat and Fish Fauna Structure in a Subtropical Mountain Stream in Taiwan before and after a Catastrophic Typhoon

Habitats and fish populations of a subtropical mountain stream in Taiwan were surveyed before and after the hit of super-typhoon Herb in July 1996. There was a significant decrease in total pool area and an increase in total riffle area. Upper stream habitat was more susceptible to the disturbance. Relative abundance of the species was significantly correlated before and after the typhoon (rs=0.89, p<0.001). Morisita's index of similarity for the fish communities in June 1996 and October 1997 ranged between 0.82 and 1.02 for seven out of nine stations. Most common cyprinids decreased in densities after Herb, but recovered seventeen months after the typhoon. There were only minor changes in fish community fourteen months after the typhoon. Cyprinids that are smaller in size, such as Candidia barbata and Abottina brevirostris alticorpus were affected the most. Gobiid Rhinogobius nantaiensis that is well adapted to riffle habitat was unaffected throughout the surveys. The results of this study suggested that in subtropical mountain stream, severe typhoon may significantly alter the habitats, but the impact on fish populations could be relatively small due to features of these mountain species.     

强台风后厦门园林乔木损失与恢复情况调查研究

以华侨大学厦门校区园林乔木受强台风“莫兰蒂”（2016年9月15日）侵袭为研究案例。通过灾后现场调研,统计出校园28种主要乔木在风灾中的受损情况,并分别在风灾过后4个月和9个月时调查树木的恢复进度。研究台风强度、树种差异、种植环境、管理维护等因素对树木风灾损失和灾后恢复的影响。最后,从灾前预防、灾后恢复2方面探讨了应对台风侵袭的策略。     

A nonlinear optimization model for fishing vessel evacuation during typhoon emergencies

We present an optimization model for fishing vessel evacuation during typhoon emergencies. Typhoon forecasts often do not accurately predict the typhoon path, so a risk assessment method is developed to evaluate the risk of fishing vessel evacuation processes. Risk assessment is the objective function of the fishing vessel evacuation optimization model. The model used is a many-to-many nonlinear assignment problem. A hybrid closed loop algorithm is used and its efficiency exceeds the traditional algorithm. The model is tested on a typhoon scenario based on harbors' distribution in Zhejiang Province, China.     

台风“布拉万”对东北近天然落叶松云冷杉试验林的影响

台风是重要的森林干扰因子之一,会对森林生态系统的结构和功能产生较大的影响。2012年的台风"布拉万"对我国东北地区局部森林造成了严重的破坏。以受灾最重的吉林省汪清林业局的近天然落叶松云冷杉林为对象,采用方差分析和相关分析方法,研究林分结构和地形条件对林木株数损伤率的影响。结果表明:(1)林木损伤类型可分为折断、连根拔起、搭挂、压弯4种,其中连根拔起为最主要的损伤类型,占总损伤株数的52%,台风灾害造成的林木株数损伤率平均为14.09%。(2)径级大小对林木株数损伤率的影响显著。损伤主要发生于径级较小林分处,径级越大,其株数损伤率越小。(3)林木株数损伤率随林分密度的增加有减小的趋势,但在统计学上它们的关系不显著。(4)不同树种间的林木株数损伤率差异显著,落叶松、冷杉等针叶树种损伤株数最多。(5)林分的树种多样性指数与林木株数损伤率无显著的相关性。(6)海拔、坡度和坡位对林木株数损伤率的影响不显著,但坡向的影响显著,东北坡向林分的林木株数损伤率最大。研究结果可以为灾后森林恢复和减少风灾影响的森林培育措施提供依据。     

Influence of typhoons on annual CO2 flux from a subtropical, humic lake

The Intergovernmental Panel on Climate Change predicts dramatic changes in precipitation patterns over the next century. One potential method for inferring how these changes in annual precipitation and intensity of storm events will influence aquatic ecosystems is to study and model present-day lakes that share climatic characteristics with future climate scenarios. A small lake in north-central Taiwan provided an excellent opportunity to explore the influence of intense meteorological events on CO₂ exchange between surface waters and the atmosphere. Each year Yuan Yang Lake (YYL) is influenced by multiple typhoons that pass near the island of Taiwan. This lake has been instrumented with a sensor network that monitors water column and meteorological parameters at a high temporal resolution (2–10 min intervals). Using this high-resolution data and manually collected CO₂ samples, a mass-balance model of CO₂ dynamics in YYL was developed. In addition, a generalized simulation model was used to explore how typhoon frequency, intensity, and timing impact CO₂ efflux to the atmosphere. Our findings suggest that increased annual precipitation and frequency of storm events results in greater epilimnetic interaction with the watershed and hypolimnion. These interactions resulted in elevated epilimetic CO₂ concentrations and therefore greater evasion of CO₂ to the atmosphere.     

Seasonal dynamics,typhoons and the regulation of lake metabolism in a subtropical humic lake

1. We used high‐frequency in situ dissolved oxygen measurements to investigate the seasonal variability and factors regulating metabolism in a subtropical alpine lake in Taiwan between May 2004 and October 2005, specifically exploring how the typhoon season (from June or July to October) affects lake metabolism. 2. Gross primary production (GPP) and ecosystem respiration (R) both peaked in early summer and mid‐autumn but dropped during the typhoon season and winter. Yuan‐Yang Lake is a net heterotrophic ecosystem (annual mean net ecosystem production ?39.6 μmole O₂ m^?3). 3. Compared to the summer peaks, seasonal averages of GPP and R decreased by approximately 50% and 25%, respectively, during the typhoon season. Ecosystem respiration was more resistant to external disturbances than GPP and showed strong daily variation during typhoon seasons. 4. Changes in the quality and quantity of dissolved organic carbon controlled the temporal dynamics and metabolic regulation. External disturbances (typhoons) caused increased allochthony, increasing DOC and water colour and influencing lake metabolism. 5. Seasonal winter mixing and typhoon‐induced water mixing in summer and autumn play a key role in determining the extent to which the lake is a seasonal carbon sink or source to the atmosphere.