水盾草入侵沉水植物群落的季节动态

水盾草(cabomba caroliniana)是原产美国和南美巴西等地的多年生植物。自1993年作为新记录报道以来,在中国华东水网地带大面积扩散,并在江苏太湖流域、浙江杭嘉湖平原、宁绍平原等水域成为很多沉水植物群落的优势种。课题组在其分布区的苏州太湖乡、湖州道场乡、杭州五常乡、绍兴陶堰镇、柯岩镇和宁波方桥镇等6个地点设置固定样地对水盾草入侵群落进行了9个季节的调查,分析了不同季节群落种类组成与生物量的变化等。结果表明：各群落优势种在不同季节有变化,有些群落在所调查季节中主要优势种都为水盾草(五常乡、柯岩镇和方桥镇),另一些群落优势种则发生季节及年际变化(太湖乡、道场乡和陶堰镇),如太湖乡冬季优势种均为菹草、其它季节为水盾草。水盾草的生物量在样地、季节间变化很大,最高一般在秋季,变幅达近50倍。水盾草生物量的季节动态显示3种情况：一是由于人为干扰大幅下降,二是处于相对稳定的平衡状态,三是大幅上升。其中后两种情况下人为干扰较小,是群落自身演替的结果。从种类组成来看,种类组成单一的群落,水盾草重要值均在50％以上;种类组成复杂的群落,其重要值随季节而变化。说明群落物种丰度与其对水盾草的易感性间有较密切的联系,水盾草易于入侵组成单一的群落,并迅速成为优势种。本地种与水盾草的生物量最大值出现在不同水深下,水盾草的最适生长水深在1．6m左右的水域,而本地种金鱼藻、苦草和黑藻的最适水深在0．8～1m左右。水盾草4个季节最适水深比本地种都要大,表明在它们在沉水植物群落中处于不同生态位。较低的群落物种多样性与空间生态位空缺可能是水盾草成功入侵的主要原因。清淤等人为控制是防治水盾草入侵成功的有效手段,但这也将使本地种的生存受到威胁。     

盖度与冠层水深对沉水植物水盾草光谱特性的影响

遥感技术可应用于大尺度实时监测沉水植物的分布与生长状况。然而沉水植物的光谱特征受其冠层在水下深度的影响,从而影响湖泊和河流中沉水植物的遥感影像解译与信息提取。应用地物光谱仪,通过野外原位测定和室外控制试验,实测了沉水植物水盾草(Cabomba caroliniana)群落冠层在水下不同深度的反射光谱,分析了冠层水深对水盾草反射光谱的影响,并建立了基于光谱反射率和冠层水深的水盾草群落盖度反演模型。研究结果表明(1)不同盖度的水盾草群落光谱反射率的基本特征主要体现在绿光和近红外波段;(2)水盾草群落的光谱反射率与冠层水深基本呈负相关,相同盖度水盾草群落的光谱反射率随冠层水深的增加而减小,在近红外波段尤其明显;(3)水盾草群落冠层水深越小,其盖度与光谱反射率的相关性越强,且水盾草群落盖度越大,其光谱反射率与冠层水深的相关性越显著;(4)水盾草光谱反射率与盖度相关的最佳波段在692—898 nm,与冠层水深相关最佳的波段在710 nm和806 nm附近;(5)在710 nm和806 nm处建立的结合冠层水深的修正模型,无论是回归方程决定系数(R2),还是水盾草群落盖度的反演精度都明显高于仅用光谱反射率反演盖度的简单模型,因此可有效减除冠层水深对反演精度的影响。本研究的结果可为遥感监测沉水植物的分布和动态变化,以及沉水植物生物物理参量反演提供科学依据。     

Responses of morphological and physiological traits to herbivory by snails of three invasive and native submerged plants

3种入侵和本地沉水植物形态和生理性状对螺类牧食的响应 沉水植物水盾草(Cabomba caroliniana)已成为中国太湖流域的优势入侵水生植物。与外来物种的原产地环境相比,引入地新环境中存在的专食性天敌较少。外来物种可能会逃避其原产地环境中的天敌牧食,又因为它们的适口性相对较差,从而导致在引入地外来物种通常比本地物种遭受的牧食者影响更低(天敌逃逸假说)。本研究的目的是比较水盾草与共生的本地沉水植物对本地牧食者的响应。我们进行了一个中宇宙尺度实验,研究了水盾草和两种共生的本地沉水植物黑藻(Hydrilla verticillata)和穗花狐尾藻(Myriophyllum spicatum)对两种本地广食性腹足纲螺类萝卜螺(Radix swinhoei)和环棱螺(Sinotaia quadrata)的牧食响应。记录了它们的形态性状指标(总生物量、冠根比和相对生长率)和生理性状指标(叶片总非结构性碳、木质素和纤维素)。研究结果表明,环棱螺对3种沉水植物性状指标的影响较少。随着本地广食性螺类萝卜螺数量的增加,黑藻和穗花狐尾藻大部分植物性状发生了改变,而水盾草的植物性状表现出相对稳定的趋势。水盾草对萝卜螺的牧食更具抵抗力,这与天敌逃逸假说的假设一致。这一发现说明牧食性螺类促进了水盾草的入侵,这可能会改变沉水植物群落中的物种组成。     

水盾草在中国的分布特点和入侵途径

水盾草(Cabomba caroliniana)是原产南、北美洲的水生植物,近年来在野外调查中发现它在中国已经成为归化植物。通过华东、华南和华中地区的实地考察,调查点共300多个,覆盖我国东南沿海及华中10省（市、区）80多个县（市）。结果发现有水盾草分布的点67个。目前水盾草在中国分布于浙江北部的杭嘉湖平原和宁绍平原、江苏南部的太湖流域及上海西部的淀山湖附近的河网地带。从地理纬度上看,自29°33′7″N（建德梅城）至31°35′2″N（常熟昆承湖）;主要的水域类型为一些水流缓慢、水位稳定的小河道和中小型湖泊。在水盾草所处的沉水植物群落中,共调查到大型沉水植物8科18属21种,常见种为苦草(Vallisneria natans)、金鱼藻(Ceratophyllum demersum)、黑藻(Hydrilla verticillata)、菹草(Potamogeton crispus),这些也是浙北、苏南地区水域主要的水生植物。根据水盾草与各个种的种间相遇百分率来看,金鱼藻最高,为51.33%,其次为苦草、黑藻和菹草,分别为45.05%、36.56%、35.64%。可见相对其他水生植物群落而言,由这些种所组成的水生植物群落更易为水盾草所侵入。从各个分布点水盾草所处状态来看,有些点的水盾草已成为群落的优势种,有的刚刚定居,还有的则仍处于零星漂浮状态,这也表明水盾草在我国仍在进一步扩散之中。根据水盾草种子无成熟的胚及植株对脱水的敏感性,推测中国的水盾草最初可能是作为水族馆观赏水草引进而逸生的。从原产地水盾草分布纬度范围、适生环境、气候条件,结合其在我国的分布特点分析,水盾草在我国尚有很大的扩散空间,为了避免类似凤眼莲(Eichhornia crassipes)那样的事件在中国重演,必须引起有关部门及科技人员对水盾草的重视。     

基于本土最优模型模拟入侵物种水盾草在中国的潜在分布

生态位模型预测存在不确定性, 不同模型预测结果差别较大。在生态位保守的前提下, 在本土区域构建经典生态位模型, 利用入侵地独立样本数据检验并选择最优模型, 具有独特优势, 可为入侵物种风险分析提供可靠参考。水盾草(Cabomba caroliniana)是一种恶性水生入侵杂草, 原产于南美洲, 已在我国多个省市建立种群, 本文基于本土最优模型预测其在我国的潜在分布, 以期为其风险分析和综合治理提供依据, 并通过水盾草案例探讨如何提高生态位模型预测准确性的方法。本文按时间顺序梳理了水盾草在我国的分布记录, 然后根据水盾草已有分布记录和其所关联的环境因子比较了不同地理种群所占有的气候生态空间, 测试水盾草在世界入侵过程中的现实生态位保守性。采用两组环境变量和5种算法在南美洲本土地区构建10种生态位模型, 并将其转移至我国, 基于最小遗漏率和记账错率, 利用我国(入侵地)的样本数据选择最优模型预测水盾草在我国的适宜生态空间和潜在分布。研究发现当前水盾草在我国的分布集中在东部水域充沛地区, 沿京杭运河和南水北调工程等向北扩散。生态空间比对中发现水盾草在亚洲与其他大洲所占有的生态空间具有一定的重叠, 其在我国的入侵过程中生态位是保守的。与本土空间相比, 水盾草在我国所占有的生态空间存在较大的生态位空缺, 表明水盾草在我国的潜在分布范围较大。生态位模型预测显示水盾草的适生区主要分布于我国的北京、上海、山东、浙江、江苏、安徽、湖北和湖南等省(市)。水盾草的潜在分布区多聚集在我国东南部, 该地区河流、湖泊、运河和渠道较为密集, 人类活动及自然天敌的缺乏容易助长其入侵趋势, 应在这些适宜地区开展调查, 及时发现疫情并采取相应措施。     

水盾草入侵机制及防治对策

生物入侵是当今世界难题之一,成为维护生物安全和生态安全的共同挑战。水盾草作为一种流行的观赏水草,原分布于美洲中部,伴随人类商业、运输等活动迁移到世界各地,现已成功入侵了亚洲、欧洲和大洋洲等地区,也在我国长三角地区广泛分布。本文介绍了水盾草的生态习性、危害、入侵成因、防治与管理等方面,从生物学特征和生境分析其入侵机制。由于很强的繁殖扩散能力和对新环境的适应能力等特性,水盾草一旦定居,即迅速生长,争夺本地物种的生存空间和资源,对入侵区域的环境、生物、经济产生负面影响。适宜的气候条件、空生态位资源是水盾草入侵的外部环境因素。目前,多种物理、化学和生物控制方法用于管理水盾草,但治理效果不一,需要综合使用多种手段,重复干预以达到管控的目的。为防止水盾草在我国大面积泛滥,亟需开展基础研究,科学预测;针对可能入侵水域,研究提出早期发现和快速响应的综合管理措施,科学治理和管理水盾草。     

浙西南地区沉水植物的区系分布与物种多样性

2007～2008年对浙西南地区的婺江、衢江及瓯江流域沉水植物的种类组成、区系类型及群落特征进行了调查研究。结果表明:(1)该地区共有沉水植物6科8属19种,在属水平上可归纳为3个区系类型,在种水平上可分为7个区系类型,并且在属种水平上的主要分布类型不同。(2)9个典型样地的13个群落类型进行了β-、γ-多样性分析。群落间β-多样性Jaccard指数显示89.8%群落间的相似性低于0.5,各样地的y-多样性则在衢江水域为最高(14种),瓯江水域最低(9种),这与不同水域沉水群落分布的研究结果相一致。并认为该地区沉水植物多样性降低是环境因子与人为干扰共同作用的结果。     

武汉莲花湖水生植被重建的实践与启示

通过截污、控制养鱼、控藻和科学种植等措施,2~3年内,在长江中游地区水质为劣Ⅴ类的重富营养湖泊武汉小莲花湖重建了以伊乐藻(Elodea nuttallii)为优势种的沉水植物先锋群落,2004和2005年春季的沉水植被盖度分别达到98%和95%,抑制了水华的发生,改善了水质。利用冬季水位低、透明度相对高的时机种植伊乐藻、菹草(Potamogeton crispu)等这些适合冬春季生长的沉水植物是建立沉水植物先锋群落的一个有效途径。由于以伊乐藻或菹草为优势种的先锋群落不稳定,必须配备丰富物种、优化结构、增加群落稳定性等后续措施。水生植被重建初期是最脆弱的时期,某些生态因子的较大波动很容易破坏植物群落,在这一时期要尽量保持关键因子的稳定,如禁止养鱼、防止污染负荷突然增加、稳定水位是必需的。     

草海自然保护区空心莲子草群落植物组成及多样性分析

湿地生态系统极易受外来入侵植物侵害, 为调查草海湿地生态系统空心莲子草不同入侵程度的群落物种组成及多样性的变化, 在夏季对草海自然保护区水陆生境的空心莲子草群落进行调查, 按空心莲子草盖度分为水Ⅰ(0-20%)、水Ⅱ(20%-50%)、水Ⅲ(50%-100%)、陆Ⅰ(0-20%)、陆Ⅲ(50%-100%)五种群落类型。结果表明: 在调查的25 个样方中, 水生生境共有10 科22 种植物, 陆生生境共有13 科29 种植物, 随空心莲子草入侵程度的增加, 禾本科植物在两种生境中比例均上升; 地面芽植物种类减少; 根茎型植物种类增加; 水中丛生型植物种类增加, 陆地分枝型植物种类减少; 水中物种丰富度增加, 陆地物种丰富度降低; 两生境多样性和均匀度均呈一致的下降。     

水盾草—南四湖外来水生植物新记录及其生境特点

外来生物入侵与生境改变被认为是导致全球生物多样性下降的两大主因[1]。其中入侵植物通过营养竞争、植被结构改变、化感作用等,影响土著植物种群和群落,进而影响生态系统结构和功能。水生植物的入侵已成为影响我国淡水水体景观和生物多样性的重要因素[2—4]。水盾草     

连续可调式沉水植物网床对河道水质的修复

在太湖贡湖水源保护区陆域的一条长约200 m的污染河道内构建了一系列连续可调式沉水植物网床,形成了以菊花草、苦草、伊乐藻、轮叶黑藻和菹草等沉水植物构成的水生植物群落;跟踪监测了总氮(TN)、铵态氮(NH4 +-N)、亚硝态氮(NO2--N)、硝态氮(NO3--N)、总磷(TP)和磷酸盐(PO43--P)等水质指标,分析沉水植物网床引导沉水植被恢复对污染河道的水质修复效果.结果表明:沉水植被网床构建后,水体透明度显著升高,由修复前的0.5m提高到1.7 ～1.8 m;在沉水植被网床构建后的第5天和第20天,TN和TP的削减率分别为35.6％、66.3％和29.4％、63.2％;5个月后,修复河道水体内NH4+-N、NO2--N、NO3--N、TN、PO43--p和TP的浓度比对照组显著降低,削减率分别达到92.4％、76.8％、72.7％、73.9％、90.5％和92.0％.由连续可调式沉水植被网床引导恢复的水生植物群落可用于河道,特别是陆域浅水污染水体的生态修复.     

Predicting the response of Cabomba caroliniana populations to biological control agent damage

Abstract  Cabomba caroliniana is a submerged aquatic plant from South America that is becoming a serious weed worldwide. It spreads by seed and by fragmentation and has an extremely wide climatic range, invading lakes and ponds from tropical (Darwin, Australia: latitude 12°) to cold temperate regions (Peterborough, Canada: latitude 45°). There are currently no effective methods of managing cabomba infestations and funding has been allocated to research biological methods. Surveys have examined cabomba in its native range and have identified several potential biological control agents. The most promising are a stem boring weevil ( Hydrotimetes natans ) and an aquatic moth ( Paracles spp.). Here we predict the change in cabomba populations after the introduction of the biological control agents. Our predictions are based on quantitative surveys of cabomba populations at three lakes in south-east Queensland, qualitative observations of cabomba in its native range, and conceptual knowledge of how the realised niche of cabomba might be affected by herbivore damage.     

Cabomba as a model for studies of early angiosperm evolution

BACKGROUND: The angiosperms, or flowering plants, diversified in the Cretaceous to dominate almost all terrestrial environments. Molecular phylogenetic studies indicate that the orders Amborellales, Nymphaeales and Austrobaileyales, collectively termed the ANA grade, diverged as separate lineages from a remaining angiosperm clade at a very early stage in flowering plant evolution. By comparing these early diverging lineages, it is possible to infer the possible morphology and ecology of the last common ancestor of the extant angiosperms, and this analysis can now be extended to try to deduce the developmental mechanisms that were present in early flowering plants. However, not all species in the ANA grade form convenient molecular-genetic models. SCOPE: The present study reviews the genus Cabomba (Nymphaeales), which shows a range of features that make it potentially useful as a genetic model. We focus on characters that have probably been conserved since the last common ancestor of the extant flowering plants. To facilitate the use of Cabomba as a molecular model, we describe methods for its cultivation to flowering in the laboratory, a novel Cabomba flower expressed sequence tag database, a well-adapted in situ hybridization protocol and a measurement of the nuclear genome size of C. caroliniana. We discuss the features required for species to become tractable models, and discuss the relative merits of Cabomba and other ANA-grade angiosperms in molecular-genetic studies aimed at understanding the origin of the flowering plants.     

Studies onCabomba aquatica (Cabombaceae)

Cabomba aquatica has been found for the first time in India. Both, submerged and floating leaves are epistomatic. The stomata are anomocytic and perigenous in their development. The metaxylem vessel elements have simple perforation plates and spiral side wall thickening. Vessel elements are found in roots, rhizomes and aerial stems. The venation pattern is of two types like the dimorphic leaves. On the basis of these and other featuresCabomba deserves family rank.     

Underwater light attenuation inhibits native submerged plants and facilitates the invasive co-occurring plant Cabomba caroliniana

Aim

Decreasing in the diversity and distribution of native submerged plants have been widely observed in recent decades. Global underwater darkening, which is mainly caused by radiation dimming and a decrease in transparency due to, e.g. eutrophication, has emerged as a general trend that strongly hampers the growth of submerged plants in lakes by decreasing the light available for photosynthesis. However, few studies have attempted to compare the responses of native and invasive submerged plants to underwater darkening. In this study, we aimed to compare the effects of light attenuation on the growth and photosynthesis traits of native and invasive submerged plants.

Location

East China.

Method

Through field investigations and a mesocosm experiment, the responses of functional traits of two representative native [water thyme (Hydrilla verticillata), Eurasian watermilfoil (Myriophyllum spicatum)] and one invasive [Carolina fanwort (Cabomba caroliniana)] plant species to various environmental factors, notably to underwater light attenuation, were studied.

Results

Underwater photosynthetically active radiation (PAR) exerted a substantial effect on the relative coverage and abundance of the three studied submerged plants in their natural freshwater habitats. Invasive C. caroliniana showed relatively superior growth (total biomass and relative growth rate) and photosynthesis traits (maximum quantum yield of photosystem II F_v/F_m, chlorophyll a content, chlorophyll b content and the ratio of Chl a and b contents) compared to the two native plants under low underwater PAR conditions. In contrast, under high underwater PAR conditions, C. caroliniana showed the opposite response.

Main Conclusions

Light attenuation inhibits the growth of native submerged plants but facilitates the growth of invasive plant species. Restoration of freshwater lakes by reducing deterioration from underwater darkening (for instance, by reducing of external nutrients loading) may therefore constrain the growth and spread of the invasive C. caroliniana.     

中国大陆水生植物新逸生种——红菊花草

报道了中国大陆水盾草科(莼菜科)水盾草属的新归化水生植物——红菊花草Cabomba furcata Schult. & Schult. f.,凭证标本存于中国科学院华南植物园标本馆(IBSC)。     

Eutrophication,agriculture and water level control shift aquatic plant communities from floating-leaved to submerged macrophytes in Lake Chini,Malaysia

In this study we: (1) present a quantitative spatial analysis of the macrophyte communities in Lake Chini with a focus on the biogeographical distributions of the native Nelumbo nucifera and the invasive Cabomba furcata; (2) examine the environmental changes that affect plant community composition; and (3) outline a conceptual model of the variation of ecological processes that shape the macrophyte communities. Plant species cover, biomass of C. furcata and N. nucifera, and water quality and environmental variables were measured before and after monsoonal floods in September 2009 and April 2010. Permutational multivariate analysis was used to examine the significance of the invasion of C. furcata at different spatial scales. Relationships between plant species cover and environmental variables before and after flooding were examined using principal coordinates analysis and non-parametric multivariate multiple regressions. Our findings suggest that (1) Variation in plant communities was significant at the lake scale and the distribution of plant species changed after annual floods. (2) Invasion by C. furcata significantly affected the overall plant community composition. (3) C. furcata biomass increased after the monsoonal season, which indicates that C. furcata is adapted to flooding events and that it is becoming increasingly abundant. (4) In addition to the strong monsoonal effect, total depth, nutrient concentration, and sediment type were important environmental variables that significantly affected plant community composition. The macrophyte community in Lake Chini is highly dynamic. The spatial and temporal plant community dynamics are associated with flood regime, water quality, and substrate. Human-induced changes in these parameters are likely shifting the macrophyte dominance from floating-leaved to submerged species.