江苏沿海互花米草(SpartinaalternifloraLoisel)盐沼扩展过程的遥感分析

互花米草(SpartinaalternifloraLoisel)自1982年在江苏沿海栽种以来,在江苏沿海已形成了大片互花米草盐沼。本文通过对历年TM卫星相片上互花米草盐沼的识别、判读及统计,认为江苏沿海互花米草盐沼的年扩展速度在早期较慢,仅为23 4%,中期较快为89%,后期又减慢为48%。结合野外调查,绘制出了江苏沿海互花米草的分布图。此外,就互花米草盐沼对江苏沿海湿地植被演替的影响进行了讨论。

互花米草(Spartina alterniflora)潜在分布格局的空间尺度效应

了解不同空间尺度下外来入侵植物互花米草(Spartina alterniflora)的潜在分布格局,有助于制定科学的防治管理策略,维护滨海湿地的生物多样性。研究基于有效的地理分布点位和环境变量数据集,设置了3个研究区幅度(区域、国家、全球)和5种环境变量粒度(30″、1.0′、2.5′、5.0′、10′),应用最大熵(MaxEnt)模型预测互花米草在不同幅度和粒度下的潜在分布,探究互花米草分布格局及其环境影响因子对空间尺度响应。结果表明:(1)MaxEnt模型在不同空间尺度下的预测效果较好,各尺度下测试集的受试者曲线下面积(AUC)值均大于0.8,真实技巧统计值(TSS)值则超过0.56,但模型的预测精度对空间尺度变化较为敏感;(2)不同空间尺度下互花米草的潜在分布格局存在着显著的差异性,表现为适生区面积会随着空间范围扩大或环境变量分辨率降低而提高,且质心位置也在不断发生地带性转移;(3)空间尺度的变化会削弱主要环境变量的解释力。在大尺度范围和低分辨率环境变量图层中,气候因子的重要性较大,而在相反尺度下地形因子的影响度得到提升;(4)研究区范围与环境变量分辨率不匹配时,模型预测精度和物种分布格局会产生显著的变化,建议在区域范围中,采用空间分辨率1.0′以下的环境变量来预测互花米草的潜在分布格局。

日照互花米草(Spartina alterniflora)分布精细化测绘及化学方法治理对底栖生物的影响

互花米草(Spartina alterniflora)作为入侵我国沿海湿地产生危害最为严重的植物之一,其生长已严重威胁到滨海湿地生态系统的稳定,不断侵吞当地原生物种的生存空间,急需摸清互花米草的空间分布并针对现有的互花米草开展治理的全过程进行有效监测。在选划区域治理的前、中、后3个时期通过无人机遥感精细化测绘手段,对互花米草的分布面积进行动态监测,并通过分析各个时期潮间带底栖动物的密度、生物量、优势种及优势度以及各项多样性指标,发现化学方法治理对互花米草的灭杀效果十分显著,同时并未对区域内底栖生物类群产生显著影响。考虑到化学除草剂对环境的影响程度与其用量和施用时间密切相关,因而在后续的研究中,应在保证灭杀效果的前提下,探索出用药的最佳时间和药量的比例以求最大限度降低对生态环境的影响。

Effect of an Alien Species Spartina alterniflora Loisel on Biogeochemical Processes of Intertidal Ecosystem in the Jiangsu Coastal Region,China

Spartina alterniflora Loisel，生长在的种内部沿着美国的东方海岸的潮汐的公寓，几乎 30 年以前在中国被介绍并且在中国的沿海的地区由于它的侵略海角成为了一个迫切话题。这相异的种类 S 的影响。alterniflora 在上内部在江苏沿海岸地区的潮汐的生态系统过程被在更早是一座泥公寓的四年的旧 Spartina 盐沼的一座泥公寓和那些比较沉积营养素可获得性和踪迹元素集中特征调查。在每个学习地点，十五个阴谋在不同季节被取样沿着潮汐的公寓决定沉积特征。结果建议有的 Spartina 盐沼沉积更高显著地总计 N，可得到的 P，和含水量，但是比泥公寓沉积降低 pH 和体积密度。沉积咸度，含水量，全部的 N，器官的 C，和可得到的 P 在 Spartina 盐沼沿着一个朝海的方向坡度减少了并且与植被生物资源增加了。而且，尽管这些增加不是重要的，踪迹元素的集中和在沉积的一些金属元素在 Spartina 下面是更高的。在 Spartina 沼泽地，另外，某重金属在沉积的表面层被集中。在这研究的 Spartina 盐沼仅仅是四岁；因此，在江苏沿海岸地区在很长时间框架上推进这相异的种的学习，这被建议应该被执行。

Pattern changes and early risk warning of Spartina alterniflora invasion:a study of mangrove-dominated wetlands in northeastern Fujian,China

The exotic saltmarsh cordgrass,Spartina alterniflora(Loisel)Peterson&Saarela,is one of the important causes for the extensive destruction of mangroves in China due to its invasive nature.The species has rapidly spread wildly across coastal wetlands,challenging resource managers for control of its further spread.An investigation of S.alterniflora invasion and associated ecological risk is urgent in China's coastal wetlands.In this study,an ecological risk invasive index system was developed based on the Driving Force-Pressure-State-Impact-Response framework.Predictions were made of'warning degrees':zero warning and light,moderate,strong,and extreme warning,by developing a back propagation(BP)artificial neural network model for coastal wetlands in eastern Fujian Province.Our results suggest that S.alterniflora mainly has invaded Kandelia candel beaches and farmlands with clustered distributions.An early warning indicator system assessed the ecological risk of the invasion and showed a ladder-like distribution from high to low extending from the urban area in the central inland region with changes spread to adjacent areas.Areas of light warning and extreme warning accounted for43%and 7%,respectively,suggesting the BP neural network model is reliable prediction of the ecological risk of S.alterniflora invasion.The model predicts that distribution pattern of this invasive species will change little in the next 10 years.However,the invaded patches will become relatively more concentrated without warning predicted.We suggest that human factors such as land use activities may partially determine changes in warning degree.Our results emphasize that an early warning system for S.alterniflora invasion in China's eastern coastal wetlands is significant,and comprehensive control measures are needed,particularly for K.candel beach.

Effects of Ecological Restoration of Mangrove Wetlands Using Native Mangrove Species to Replace Spartina alterniflora: A Case Study in Southern China

Within the expanse of China’s coastline, the invasive alien cordgrass species Spartina alterniflora has caused profound nationwide damage and has emerged as a critical factor contributing to the degradation of mangrove wetlands, especially in the study area in Beihai, Guangxi. However, current treatments for S. alterniflora remain less effective and limited research focuses on the preliminary changes after artificial plantation. A comprehensive approach combining physical interventions with biological control measures has been employed to eradicate smooth cordgrass and facilitate the restoration of native mangrove wetlands. The study involved the periodic monitoring of the growth conditions of mangroves and the biodiversity of avian and benthic organisms, conducted at three to four-month intervals following the artificial plantation with one-year-old seedlings and propagules of native mangrove species Rhizophora stylosa. Results indicated that through the allometric equation, the above-ground biomass of planted seedlings had a ~20 g increase in average but the growth conditions were not significant over an eight-month period. High percentage of important avian species underlined the potential of the study site to serve as a worthwhile habitat and notable seasonal variations were observed in the biodiversity of bird species. Biodiversity indices of bird and benthos species also followed a similar fluctuation and reached a peak in April 2023. This research underscores the initial lack of distinct improvements during the early stages of the ecological restoration project, thorough maintenance, long-term monitoring, holistic considerations on a larger scale would be imperative for ongoing projects in the future.

基于无人机数据的滨海湿地互花米草(Spartina alterniflora)地上生物量反演研究

互花米草(Spartina alterniflora)快速入侵的关键在于其生长繁殖以及对环境的适应能力,互花米草生物量的大小正是它入侵能力的重要体现。以无人机遥感影像为数据源,通过建立关于植被覆盖度和植株高度的模型对互花米草地上生物量进行估算研究。研究结果表明,在条子泥研究区内互花米草地上生物量在0~9.13 kg·m^(-2)之间,地上生物量平均值为0.73 kg·m^(-2),75.13%的互花米草地上生物量小于0.73 kg·m^(-2),地上生物量为0.73~3.00 kg·m^(-2)以及>3.00 kg·m^(-2)的互花米草分别占18.47%和6.40%,地上生物量较高的互花米草主要分布在靠近海堤区域与近海一侧潮滩,中间区域地上生物量较低。遥感影像景观分类结果Kappa系数为0.85,互花米草地上生物量估算的均方根误差为0.76,反演结果能够在一定程度上反映研究区互花米草地上生物量分布情况。互花米草分布多呈斑块状,部分呈丛分布,处于互花米草快速扩张阶段。研究所采用的无人机遥感能够同步获取采样时间点研究区的影像数据,可以很好地应用于时效性较强的生物量遥感反演。该研究为互花米草地上生物量的定量化反演提供了新的方法。

江苏沿海互花米草(Spartina alterniflora)盐沼的形成过程

选取江苏沿海的3个典型岸段,在2000—2001年进行了野外地貌沉积及植被调查,并进行了地形高程测量;选用了1985—2001年间7个时相的TM卫星影像资料,追踪了江苏互花米草盐沼形成的过程。结果表明,在移栽后的5—6年内,互花米草植被扩散缓慢,主要为立地扎根,走茎蔓延。在TM影像可以计量的规模上,互花米草植被在裸滩上的扩散可以分为三个阶段第一阶段为1993—1996年,随着面积逐渐增大,草仔数量明显增加,年扩展率逐渐扩大,到1996年,平均年扩展率已达30%。第二阶段为1996—1999年的3年间,互花米草人工盐沼的面积迅速扩大,年扩展率平均为43%。第三阶段为1999年以后,平均年扩展率迅速减小,为10%,预计还要减缓,最后,待原有潮滩生态位长满后,与滩涂自然淤长速率相应。

米草属植物Spartina angilica和Spartina alterniflora引种后江苏海岸湿地生态演化的初步探讨

选取江苏王港潮滩的盐蒿滩、大米草滩及互花米草滩,分析这三类滩面的地面以上生物量、初级生产力、动物洞穴参数和沉积物粒度,探讨大米草和互花米草引种区的湿地生态系统相对于盐蒿滩的变化。分析结果表明,互花米草滩的生物量远大于盐蒿滩和大米草滩;单位面积上动物洞穴数量相近,但洞穴大小有一定差异,互花米草滩动物洞穴稍大,数量也相对较多,这可能与初级生产力的提高有关。表层底质的粒径以互花米草滩为最细,盐蒿滩最粗,这种分布状况与互花米草引种前不同,说明互花米草促进了细颗粒物质的堆积。互花米草的引种在江苏海岸具有促淤和提高初级生产力的作用,而它对湿地生态系统的结构和功能的影响需要进一步研究。

刈割与水位调节集成技术控制互花米草(Spartina alterniflora)

治理和控制外来物种互花米草(Spartina alterniflora)对维护崇明东滩自然保护区生物多样性具有重要的意义和必要性。研究在上海崇明东滩鸟类国家级自然保护区建立的受损滩涂湿地生态修复示范样地中开展"刈割与水位调节集成技术"治理互花米草的物理控制实验,以期寻求有效治理互花米草的控制技术。示范研究结果表明,单一的水位调节方法虽然可以降低互花米草群落的密度和叶面积指数(LAI),但至水淹处理100d后,处理样区内互花米草的生长和生物量已与对照区无显著差异。单一的水位调节方法不能达到有效快速控制互花米草的效果。通过在互花米草生长关键期(7月的扬花期)刈割+水位调节集成技术处理后,互花米草地上部分无再新生现象,至当年10月份(生长季末期),样区内互花米草的地上部分和地下部分已完全死亡并开始腐烂,达到了有效控制互花米草的效果。因此,应用刈割+水位调节集成技术治理互花米草,必须选择关键季节刈割互花米草地上部分,同时配合一定水位的持续淹水(约3个月),才能有效发挥其迅速有效治理互花米草的效果。扬花期刈割+水位调节集成技术可为沿海地区大范围防治互花米草扩散提供有效途径。

互花米草(Spartina alterniflora)草场土壤微生物生态分布及某些酶活性的研究

种植互花米草的盐沼土中,细菌、放线菌和真菌的数量比对照盐沼土中多。就不同深度来说,15—30厘米土层中,细菌数最多。细菌总数的增减趋势是:夏秋两季最多,冬春两季较少。在各生理类群中,氨化细菌占优势;固氮细菌、硝化细菌次之;反硝化细菌和硫酸盆还原细菌最少。内源呼吸作用强度、添加葡萄糖后的呼吸作用强度、氧化丙酮酸的能力和氧化多酚化合物的能力皆显示出同样的趋势,即三年生草场土壤中生物活性最强,光滩土壤中生物活性最弱。在光滩土壤中,脲酶和过氧化氢酶活性很低,而种植互花米草的土壤中这两种酶活性较强,但与种植年限和季节变化无显著相关性。

互花米草(Spartina alterniflora L.)对重金属Cd胁迫的生理响应

以盐生植物互花米草幼苗为试材,研究了其抗氧化酶体系活性（超氧化物歧化酶,SOD;过氧化物酶,POX;过氧化氢酶,CAT）对不同浓度Cd胁迫的响应变化,并利用非变性聚丙烯酰胺凝胶电泳对SOD及CAT进行了同工酶分析.结果表明,抗氧化酶活性与Cd处理浓度关系密切,0.1-2.0 mmol/L Cd浓度范围内SOD活性显著增加;POX活性在Cd浓度较低时相对稳定,高浓度下降低显著;而CAT酶活性在Cd浓度较高时被诱导升高.SOD同工酶谱受到Cd胁迫的显著影响,4.0 mmol/L处理下酶活性明显降低.CAT同工酶活性呈现先降后升的变化趋势,与酶总活性的检测结果基本一致.表明互花米草对重金属Cd具有一定程度的耐受性,可以通过提高酶促过氧化体系活性来应答Cd导致的氧化胁迫;而Cd浓度超过一定阈值后（4.0 mmol/L）,互花米草即遭受较严重的不可逆损伤.

盐和温度胁迫对外来种互花米草(Spartina alterniflora)生理生态特性的影响

盐浓度和环境温度是影响外来种互花米草自然分布的两大重要生态因子。在不同NaCl浓度和温度胁迫条件下,对互花米草幼苗根部和叶片中膜脂过氧化产物丙二醛(MDA)、游离脯氨酸及可溶性糖、超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)的动态变化进行了测定。结果表明:当NaCl浓度低于100mmol·L-1时,可以促进互花米草的生长;而NaCl浓度超过100mmol·L-1时,互花米草可以通过提高体内保护酶(SOD、POD、CAT)活性,增加可溶性糖和游离脯氨酸含量来适应外界盐浓度变化;温度胁迫后,互花米草地上和地下器官对胁迫的响应程度不同,叶片中可溶性糖含量、CAT活性明显比根部高,而根部SOD、POD活性比叶片中高。

磁场对互花米草(Spartina alterniflora)三种生态型的生理效应

磁场对互花米草具有显著的生理影响,通过三种生态型互花米草在芽、苗期过氧化物酶(POD)、细胞色素氧化酶(COD)、苹果酸脱氢酶(MDH)、酯酶(Esterase)等同工酶、游离氨基酸和种子发芽状况的分析,表明四种同工酶、氨基酸代谢和种子萌发明显受磁场的影响。不同的植物发育期,磁场影响不相同;四种同工酶对磁场的感应强度并不相同,磁场作用具有阈值,特定的磁场强度具有特定的生物效应,而不同的生态型,磁场阈值不同,故基因型不同是磁场生物效应差异的一个重要因素,在磁场诱变育种等生产实践和其他有关研究中应注意基因型的差异。

简析互花米草(Spartina alterniflora的研发态势与综合利用

互花米草(Spartina alterniflora属于禾本科米草属多年生单子叶草本植物,具有耐盐耐淹及其快速高效的生物质合成能力以及生物质能储量丰富的特点。自1979年引种到我国以来,在防风护沙、保滩护堤等方面发挥了积极的作用,同时也给沿海生态系统带来了一定的影响,年国家环保总局将其列入首批外来入侵物种名单。本文根据文献报道简析了近年来国内外科学家对互花米草的研究成果。利用科学引文索引(Science Citation Index Expanded,SCI-E和德温特专利索引(Derwent Innova.tion Index,DII及Innography为数据源,采用Thomson Data AnalyzerTDA等数据库和分析软件对互花米草研究领域发表的文献和专利进行分析,简要阐述了近年来国际上对于互花米草的研发动态与综合利用情况。

外来入侵物种互花米草(Spartina alterniflora)及凤眼莲(Eichhornia crassipes)的遥感监测研究进展

外来物种的入侵给生态系统带来了许多正面的和负面的影响,并已成为当前学术界关注的热点问题之一。为了有效地管理以及合理地开发利用外来入侵物种,变害为利,需要对其种群的空间分布和动态变化进行监测。然而由于沿海滩涂和水体表面特殊的自然地理环境,使得传统的实地调查较为困难。3S技术是近年来发展起来的,从较大尺度定量研究滩涂植被互花米草(Spartina alterniflora)或水生植被凤眼莲(Eichhornia crassipes)的一种有效手段。研究人员通过收集不同时相的遥感影像,运用遥感处理软件对其进行分类解译,并结合GPS的野外核实修正,最后在GIS中对解译结果进行数据合成,即可统计出滩涂及水生植被的空间分布及动态变化。国内外的研究表明,3S技术可应用于外来入侵物种的动态监测,进而为入侵物种的控制与管理提供科学依据。但由于海岸带地区空间尺度相对较小,水生植物的空间分布变化比较剧烈,植被群落交错地带存在着混合像元,使得这一方法的分类精度具有一定的局限性,还需要进一步的研究和改进。

三沙湾互花米草(Spartina alterniflora)入侵对大型底栖动物群落结构的影响

为探讨互花米草(Spartinaalterniflora)入侵对三沙湾光滩、红树林湿地的生态影响,分别于2013年10月和2014年9月在三沙湾选择了2条互花米草断面、2条红树林断面和1条光滩进行底栖生物生态调查,分析了大型底栖动物群落分布的时空差异、底栖动物与环境因子之间的关系。经鉴定,该调查海域大型底栖动物共68种,隶属于7门40科,其中短拟沼螺(Assiminea brevicula)为互花米草区优势物种;宁波泥蟹(Ilyoplax ningpoensis)为光滩的优势物种;巴林虫(Barantolla sp.)为红树林区优势物种。对各生境大型底栖动物物种数、生物量和栖息密度组成进行双因素无重复方差分析(two-way ANOVA),结果显示不同生境大型底栖动物物种数差异极显著(P<0.01),互花米草入侵红树林后,大型底栖动物物种数稍有下降,但是互花米草入侵光滩后,大型底栖动物物种数有所增加;不同生境大型底栖动物生物量差异极显著(P<0.01),栖息密度差异不显著(P>0.05)。利用大型底栖动物的ABC曲线分析群落结构的稳定性,显示光滩群落结构稳定,互花米草入侵后,优势物种变化显著,双齿围沙蚕数量迅速增加,降低了原有大型底栖动物群落结构的稳定性。除生境影响外,互花米草入侵的潮位区域、生长密度差异、入侵阶段等也均会对大型底栖动物造成影响。

Impact of the cord-grass Spartina alterniflora on sedimentary and morphological evolution of tidal salt marshes on the Jiangsu coast,China

The tidal flats of the Wanggang area, on the Jiangsu coast, represent the largest continuously distributed coastal wetland in terms of area coverage in China, and the dynamics of tidal flat accretion and erosion is highly complicated. The cord-grass Spartina alterniflora, which was introduced artificially into the Jiangsu coast, has significant influences on the regional tidal flat evolution in terms of deposition rate, spacial sediment distribution patterns and tidal creek morphology. On the basis of the data set of bed elevation and accumulation rate for different periods of time, the applicability of the Pethick - Allen model to the Jiangsu tidal salt marshes is discussed. In addition, caesium-137 dating was carried out for sediment samples collected from the salt marsh of the Wangang area. In combination with the caesium-137 analysis and the data collected from literature, the Pethick - Allen model was used to derive the accumulation rate in the Wanggang tidal flat for the various periods. The results show that the pattern of tidal flat accretion has been modified, due to more rapid accretion following the iatroduction of S. alterniflora to the region. Surficial sediment samples were collected from representative profiles and analyzed for grain size with a laser particle analyzer. The result shows that fine-grained sediment has been trapped by the plant, with most of the sediment deposited on the Suaeda salsa and Spartina angelica flats being derived from drainage creeks rather than the from gently sloping tidal flats. Remote sensing analysis and in situ observations indicate that the creeks formed in the S. alterniflora flat have a relatively small ratio of width to depth, a relatively high density, and are more stable than the other tidal flat creek systems in the study area.

Emergency control of Spartina alterniflora re-invasion with a chemical method in Chongming Dongtan,China

The exotic species Spartina alterniflora(S.alterniflora)seriously threatens the stability and functioning of saltmarsh ecosystems in the Yangtze Estuary.Ambitious efforts have been undertaken to control this species,but subsequent re-invasion is frequent,presenting a significant barrier to restoration.The complexity and high cost of integrated physical control programs has necessitated a shift in focus,leading to considerable attention being paid to the potential of herbicides to control S.alterniflora.To find a strategy for emergency control of small and scattered patches of re-invading S.alterniflora,an in situ field experiment using Gallant(Haloxyfop-R-methyl)herbicide was conducted.The growth parameters of plant density and height were used to evaluate the control efficiency of different treatment dosages and times and sediment samples were taken for environmental toxicity analysis.The results show the following:(1)the control efficacy of the maximum proposed application dose(2.70 g/m2)was 92%for continuous swards and 100%for small patches,while those of other dosages(0.45 g/m2,0.90 g/m2,and 1.35 g/m2)were lower than 40%;(2)the appropriate implementation time was July to August with 100%mortality resulting from a single application,while S.alterniflora was shown to be capable of recovering rapidly after treatment in May;and(3)there were no significant differences in the community structure of meiofauna among the herbicide treatments and the control,and no herbicide residues were detected in sediment samples collected from treatment areas.This chemical control method was implemented in the Shanghai Chongming Dongtan National Bird Nature Reserve(CDNR).The results of this study indicate that Gallant is an environmentally friendly herbicide with high efficiency,which can be adopted for emergency control of re-invading S.alterniflora.

Geographical Variation and Influencing Factors of Spartina alterniflora Expansion Rate in Coastal China

Biological invasion poses a huge threat to ecological security.Spartina alterniflora was introduced into China in 1979,and its arrival corresponded with negative effects on native ecosystems.To explore geographical variation of its expansion rate in coastal China,we selected 43 S.alterniflora sites from Tianjin Coastal New Area to Beihai.The area expansion rate,expansion rate paralleling and vertical to the shoreline were analysed based on Landsat images and field survey in 2015.Simple Ocean Data Assimilation(SODA)and climate data were collected to statistically analyse the influential factors of expansion rate.Results showed that significant difference of S.alterniflora area expansion rate among different latitude zones(P<0.01),increasing from 6.08%at southern(21°N–23°N)to 19.87% in Bohai Bay(37°N–39°N)along latitude gradient.There was a significant difference in expansion rate vertical to shoreline in different latitude zones(P<0.01)with the largest occurring in Bohai Bay(256m/yr,37°N–39°N),and showed an decreasing tendency gradually from north to south.No significant difference and latitudinal clines in expansion rate paralleling to shoreline were observed.Expansion rate had significant negative correlation with mean seawater temperature,the lowest seawater temperature,current zonal velocity and meridional velocity and presented a reducing trend as these biotic factors increased;however,they were not significantly correlated with the highest seawater temperature and mean seawater salinity.We identified significant correlations between expansion rate and annual mean temperature,the lowest temperature in January and annual precipitation,but there was little correlation with annual diurnal difference in temperature and the highest temperature in July.The rapid expansion rate in high-latitude China demonstrated a higher risk of potential invasion in the north;dynamic monitoring and control management should be established as soon as possible.