东湖围隔（栏）中的植被恢复对水中氮的影响

利用大型围隔研究自然水体的某些生态过程具有真实准确、易于控制等优点 ,2 0世纪 80年代以来 ,国内陆续开展了一些研究[1～ 4 ] 。水体富营养化是目前我国湖泊存在的普遍问题 ,恢复水生植被可有效改善水质 ,减轻富营养化程度。武汉东湖(Ｅ114°2 3’ ,Ｎ30°33’)是一个典型的浅水城郊湖泊 ,已严重富营养化 ,为重建其水生植被 ,恢复其良性生态系统 ,在东湖建立了两个大型围隔和一个围栏 ,对其中的水生植被恢复及水质变化等方面进行了定位研究 ,旨在为重建和优化东湖水生植被 ,改善其水质提供借鉴。1　研究方法实验区位于东湖的汤林湖区。设…     

武汉东湖水生植被春恢复途径探讨

１９９２－１９９３年对武汉东湖三个主要湖区水生植被的调查表明,该湖区共有水一植 物３２种优势种为大茨藻、狐尾藻、苦草和菱。金鱼藻呈不断扩大的趋势。     

东湖大型围隔及围栏内植物群落和水质的变化

为恢复湖泊水生植被,初步研究了建在武汉东湖的大型围隔、围栏中的植物群落和水质的季节动态以及两者间的关系,结果表明：围隔、围栏中,植物生物量明显增加,漂浮植物易定植,水绵和刚毛藻易发生,植物群落结构难以自然地得到优化;养鱼对水生维管束植物的生长和恢复不利;水中总氮与总磷的变化具一致性,它们与水生植物的生物量间关系密切,围隔中水生植物的良好生长使水的总氮、总磷浓度明显降低     

武汉东湖水生植被及其恢复途径探讨

１９９２～１９９３年对武汉东湖三个主要湖区（郭郑湖、汤林湖和牛巢湖）水生植被的调查表明,该湖区共有水生植物３２种,优势种为大茨藻、狐尾藻、苦草和菱。金鱼藻呈不断扩大的趋势。植被类型可分为１１个群丛,植被面积约为０．６５ｋｍ￣２,总生物量为１２３６．３９ｔ（湿重）,植被带状分布仅见于汤林湖北部和其他部分湖汊。汤林湖和牛巢湖水生植被正处于自然恢复演替阶段。     

恢复东湖水生生态系统途径初探

借鉴国内外其他湖泊的治理经验 ,讨论了如何恢复东湖水生生态系统的一些途径 ,其中探讨了①物理方法 :截污 ,清淤与引水冲污 ;②化学方法 :化学除磷与抑藻或杀藻 ;③生物方法 :用生物量输出氮磷与用生物方法对小型浮游藻类进行控制。     

1998年特大洪水后鄱阳湖自然保护区主要湖泊水生植被的恢复

鄱阳湖自然保护区的湖泊是相对独立于鄱阳湖主体湖的一个区域,是国际重要湿地。1998年的特大洪水导致湖泊中水生植物的地上部分大量毁灭。通过1999年和2001年的植被调查,并与历史资料比较,探讨了特大洪水干扰后的植被恢复动态。结果表明,1999年湖泊水生植物的种类和生物量均低于干扰前的水平;2001年物种种类已经恢复,苦草(Vallisneria spp．)和黑藻(Hydrialla verticillata)的生物量已超过干扰前的水平,但其它物种的生物量仍较低,尚处于恢复的初始阶段。据此推断,物种问恢复速度的差异主要与物种的无性繁殖方式有关。鄱阳湖自然保护区湖泊的植被恢复不同于温带和其它亚热带的湖泊,不经历轮藻(Chara spp．)作为先锋优势种的阶段,苦草和黑藻可以作为先锋种首先在湖泊中恢复。这可能与鄱阳湖作为通江湖泊其水位频繁波动、轮藻不易定居有关。研究显示,洪水导致的水生植物生物量下降和物种数目减少只是短期现象,湖泊水生植物能在几年内恢复到干扰前的水平。     

淤泥湖退化水生植被恢复及其在湖泊天然生态库中作用的研究

对淤泥湖水生植被的天然恢复过程、群落组成、结构、功能与动态等进行了定位研究（１９９２￣１９９５）。该湖水生植物共有２０科２９属４１种。４种生活型的植物种类在该湖均有分布,以沉水草本（１５种）和挺水草本（１３种）为多。８个分布区类型中世界广布成分１６种和东亚成分１０种。群落结构包括层次结构和层片结构。该湖共有８个群落类型;群落现存量３２０８．８ｇ·＾－２,全湖植被资源贮量为１６３６５．２ｔ。     

杭州西湖水生植被恢复的途径与水质净化问题

我国著名的风景湖泊——杭州西湖、南京玄武湖、北京昆明湖、武汉东湖和昆明滇池等,由于人类经济活动的影响,特别是由于生活污水的大量排入和渔业生产的影响,致使湖泊富营养化问题越来越严重,不仅降低了旅游价值,而且有害于沿湖居民的生活和健康,因此引起人们的极大关注。     

淤泥湖退化水生植被恢复及其在湖泊资源天然生态库中作用的研究

对淤泥湖水生植被的天然恢复过程、群落组成、结构、功能与动态等进行了定位研究（１９９２～１９９５）．该湖水生植物共有２０科２９属４１种．４种生活型的植物种类在该湖均有分布,以沉水草本（１５种）和挺水草本（１３种）为多．８个分布区类型中世界广布成分１６种和东亚成分１０种．群落结构包括层次结构和层片结构．该彻共有８个群落类型;群落现存量３２０８．８ｇ·ｍ－２,全湖植被资源贮量为１６３６５．２ｔ．     

太湖藻型富营养化对水生高等植物的影响及植被的恢复

太湖的五里湖是典型的藻型富营养化湖泊,水质污染严重,水生高等植物消失。在该湖的物理生态工程围区内外,用盆吊繁殖试验、壮芽直播试验及人工水生植物群落套种栽培试验,研究藻型富营养化湖泊中影响水生高等植物生长、繁殖的主要水环境因子。结果表明,水体透明度是制约沉水植物和浮叶植物幼苗成活及生长的主要因子。在水体透明度较低、水下光照不足时,沉水植物生长受水下光照的影响大于浮叶植物,水下光照严重不足时,沉水植物的幼苗大量死亡。１９９５～１９９７年,在围区内成功地组建了包括漂浮植物、浮叶植物及沉水植物的１５个不同的水生高等植物群落。恢复和重建的水生高等植物群落能够有效地净化富营养化水体。     

Applying remote sensing techniques to monitoring seasonal and interannual changes of aquatic vegetation in Taihu Lake,China

Knowledge of the composition and areal distribution of aquatic vegetation types, as well as their seasonal and interannual variations, is crucial for managing and maintaining the balance of lake ecosystems. In this study, a series of remotely sensed images with a resolution of 30 m (HJ-CCD and Landsat TM) were collected and used to map the distribution of aquatic vegetation types in Taihu Lake, China. Seasonal and interannual dynamics of aquatic vegetation types were explored and analyzed. The distribution areas of Type I (emergent, floating-leaved and floating vegetation) and Type II (submerged vegetation) were used to model their growing season phenology by double logistic functions. The resulting double logistic models showed, the area of Type I reached its peak in mid-August, and the maximum area for Type II occurred in mid-September. From 1984 to 2013, Type I area increased continuously from 59.75 km² to 148.00 km² (R² = 0.84), whereas the area covered by Type II first increased and then decreased, with a trend conforming to a significant quadratic curve (R² = 0.83). The eutrophication and stable state of Taihu Lake was assessed using a simple indicator which was expressed as a ratio of Type II area to Type I area. The results showed that the eutrophication in the lake might have been increasing in the area studied since 2000. Additionally, the results showed that air temperature had likely a direct effect on the growth of Type I (R² = 0.66) and a significant, but delayed, effect on the growth of Type II.     

Restoration of wetland vegetation using soil seed banks: lessons from a project in Lake Kasumigaura, Japan

The restoration of degraded wetland ecosystems and the recovery of wetland biodiversity are important global issues. Generally, wetland restoration projects include activities to recover vegetation. A promising revegetation technique is one in which soil seed banks are utilized as the source of plant recolonization. Using such a technique, a pilot project to restore lakeshore vegetation was launched at Lake Kasumigaura, Japan, in 2002. In the project, lake sediments containing the seed banks were spread thinly (∼10 cm) on the surfaces of artificial lakeshores, which were constructed in front of concrete levees and had microtopographic variations. In total, 180 species, including six endangered or vulnerable species and 12 native submerged plants that had disappeared from the above-ground vegetation of the lake, were recorded in five recreated lakeshores (total area, 65,200 m²) during the first year of the restoration. The distribution of each restored species at the sites suggested the importance of microtopographic relief for recolonizing species-rich lakeshore vegetation. Furthermore, the origin of the source seed banks affected the species composition of the restored vegetation. On the other hand, the restoration sites were subject to exotic plant invasions. Here, we report lessons learned from the Lake Kasumigaura restoration project as a contribution to the establishment of ecologically sound revegetation techniques.     

高密度网围养鱼对水生植被的影响及生态对策探讨

研究了东太湖高密度网围养鱼实验区周围水生植被退化情况,影响范围半径＞６００ｍ,在中心带优势种微齿眼子菜为黑藻、金鱼藻和穗花狐尾藻所代替,并引起水绵严重发生,丧失了饲料生产能力．养鱼污染可导致水生植被退化,１４．３ｈｍ２网围面积上年Ｎ、Ｐ污染负荷量分别达２４２ｇ·ｍ（－２）·ａ（－１）和２７．４ｇ·ｍ（－２）·ａ（－１）．网围对风浪、水流的作用和水草收割的障碍效应是水生植被退化的另一重要原因．应对湖泊中网围养鱼的规模进行严格限制,并通过网围的小型、分散和短期化来减弱其环境效应的时空叠加,加强对网围周围水草的收割管理以防止植被退化和湖泊营养化．     

基于可见光植被指数的面向对象湿地水生植被提取方法

利用ESP分割工具确定最佳分割尺度,通过多尺度分割算法创建最优分割影像,基于微型无人机影像数据生成可见光植被指数,从一系列可见光植被指数中选取一组最优植被指数,建立决策树规则,利用隶属度函数对研究区自动分类,生成水生植被分布图.结果表明: 监督分类法的总体精度为53.7%,面向对象分类法总体精度为91.7%,与基于像元的监督分类法相比,面向对象分类法显著改善了影像分类结果,并大大提高了水生植被提取精度,监督分类法的Kappa系数为0.4,而面向对象分类法的Kappa系数为0.9.这表明利用微型无人机数据生成的可见光植被指数结合面向对象分类方法提取水生植被在该研究区是可行的,并能够应用到其他类似区域.     

Assessing the potential for recovery of lakeshore vegetation: species richness of sediment propagule banks

To assess the potential and develop appropriate techniques for the recolonization of lakeshore vegetation at sites where it had been completely lost, a pilot project was launched at Lake Kasumigaura, Japan. We investigated the species composition and density of the soil seed banks (propagule banks) of lake sediments at nine sites (total area, 65,200 m²) where lake sediments were spread thinly (∼10 cm) on the surfaces of artificial littoral zones. These zones were constructed in front of concrete levees and had microtopographic variations. In total, 180 species, including six endangered or vulnerable species and 12 native submerged plants that had disappeared from the aboveground vegetation of the lake, were recorded during the first year of restoration. The distribution of each restored species at the sites suggested the importance of microtopographic variation for recolonizing species-rich lakeshore vegetation. Furthermore, the origin of the source sediment affected the species composition of the established vegetation.