中国地卷属地衣海拔分布分析

海拔是地衣多样性的重要影响因素。了解地衣的海拔分布格局是地衣多样性保护的基础。研究表明中国地卷属地衣的物种丰富度和个体丰富度沿海拔梯度呈单峰曲线,它们倾向于分布在受全球变暖影响较高的高海拔地区[（2,022±995）m],且具有较窄的海拔分布幅（约68%的物种分布于海拔为1,694－2,954m的地带）,因而对其进行保护生物学的研究已十分迫切。地卷属11种地衣具有不同的海拔分布规律,这些分布规律与各自分布的海拔区间有关。基于11物种的海拔分析支持Rapoport法则。全球暖化对4种地衣的潜在威胁尤其强烈,即：大陆地卷Peltigera continentalis、长孢地卷P. dolichospora、克氏地卷P. kristinssonii和小地卷P. venosa。     

秦岭牛背梁植物物种多样性垂直分布格局

基于秦岭山脉中段牛背梁自然保护区南北坡垂直样带51个样方的调查资料,利用植被数量分析方法(TWINSPAN和DCA)对牛背梁植物群落进行了分类和排序,并分析了植物物种多样性沿海拔梯度的分布格局。结果表明,牛背梁的植被群落具有明显的海拔梯度格局,从低海拔到高海拔依次分布有：锐齿槲栎(Quercus aliena var.acuteserrata)林,桦木(Betula spp.)林．巴山冷杉(Abis Jargesii)林和亚高山灌丛。海拔梯度是牛背梁山区制约植物群落分布的主要因子,而坡向和坡度则起到次要作用。对物种多样性的分析表明,物种总数、木本植物物种多样性和草本植物物种多样性在南北坡具有不同的海拔梯度格局。物种总数在南坡呈现单峰分布格局,而在北坡分布趋势不明显;木本植物物种多样性在南北坡具有相似的分布格局：在低海拔沿海拔梯度变化不明显,而在高海拔则随海拔上升而急剧下降;草本植物物种多样性在南北坡沿海拔梯度变化的规律不明显。β多样性沿海拔梯度先减少后增加,形成两端高中间低的格局,说明中海拔地区生境条件较为均一,低海拔地区的人为活动增加了生境的异质性,而高海拔地区的生态过渡特性增加了物种的更替速率以及群落的相异性。     

中国弧隔鼠尾草亚属(唇形科)的分布格局

弧隔鼠尾草亚属(Subg.Salvia Benth.)是中国原产鼠尾草属最大的属下类群,有44种13变种,大多含有与丹参(S.miltiorrhiza)类似的活性化合物成分和药用功效,是具有较高利用前景的野生药用植物资源。从形态学分析,该亚属具备原始类群的主要特征,物种分化明显,是研究鼠尾草属起源和演化的关键材料;从地理分布格局看,该亚属集中分布于青藏高原以及横断山脉的高海拔地区,较少扩散至低海拔的华中与华东,易受环境和全球气候变化的影响,生境人为干扰强烈,资源保护压力较大。据此,对弧隔鼠尾草亚属物种分布区进行了全面调查,结合标本记录,获得该类群具经纬度的物种分布记录2689条,海拔高度记录1007条,分布点涵盖286个县级地区。进一步对亚属内各组、系的水平与垂直分布格局深入分析。结果表明,亚属以横断山为核心区,主要分布于西藏东南至川西一带,零星扩散迁移至河北北部、湖北东部,其狭域分布的特有种比例非常高,占总物种数的45%。在物种海拔分布格局上,亚属内6个系具有替代分布现象,从高海拔的窄域分布物种逐渐过渡到低海拔的宽域分布物种。基于最大熵模型预测的亚属出现概率与物种实际分布范围基本吻合,从单一环境因子与出现概率的关系看,12月降水量、9月降水量、年温度变化范围、海拔、3月最高气温和温度季节性变化系数是影响物种分布的主导环境因子。鼠尾草雄蕊的分化是物种形成和多样性产生的关键因素,亚属内不同类群的分布格局与雄蕊花丝药隔比例的相关性表明,环境因子和传粉者选择可能共同作用形成现有弧隔鼠尾草亚属的分布格局。     

海拔高度对江油地区杉木人工林群落结构和物种多样性的影响

物种多样性是群落功能复杂性和稳定性的重要量度指标,海拔高度是影响物种多样性的重要因素。该实验采用典型样地法,在800~900m(低海拔)和1 100~1 200m(高海拔)2个海拔高度分别取4个20m×20m的样地,对江油地区的杉木人工林群落结构和物种多样性进行研究,采用物种丰富度指数(D)、Shannon-Wienner多样性指数(H)、Simpson优势度指数(H′)和均匀度指数(Jsw)来综合衡量不同海拔杉木人工林群落的物种多样性。结果表明:(1)组成江油杉木人工林的物种共计205种,分属66科177属;低海拔地区乔木7种,灌木54种,草本47种;高海拔地区乔木10种,灌木60种,草本41种。(2)低海拔和高海拔的木本植物组成无明显差异,草本层的物种组成有明显差异。(3)群落各层次的物种多样性指数在低海拔和高海拔都表现为:灌木层草本层乔木层,乔木层的各项指数最低;物种多样性指数随海拔升高在特定区间内表现出一定规律性,D、H和Jsw值总体上呈高海拔低海拔,H′则相反,表明高海拔杉木人工林物种多样性和物种在群落中分布的均匀度都有增加的趋势,这与高海拔受人为干扰较轻以及环境因子的变化等密切相关。     

贡嘎山东坡非飞行小型兽类物种多样性的垂直分布格局

为了解贡嘎山地区物种多样性的垂直分布格局,2010年4—9月利用夹日法对贡嘎山东坡非飞行小型兽类的物种多样性进行了详细调查。调查在海拔1200—4000m之间按400m间隔设置了8个采集样地,累计布夹28800夹次,捕获非飞行小型兽类个体701个,观察记录到松鼠个体25个,共调查记录小兽个体726个,分属于3目6科16属25种。非参数估计的物种丰富度Chao2和Jackknife2指数以及物种累积曲线评估表明本次调查取样充分,能很好地反映该地区非飞行小型兽类物种多样性的垂直分布格局。结果表明:非飞行小型兽类物种多样性的垂直分布格局为单峰模型;物种丰富度和物种多度在中海拔地区最高,在低海拔和高海拔地区较低;相反,物种均匀度在中海拔地区较低,在低海拔和高海拔地区较高;而物种优势度则随着海拔的升高而逐渐增加;Shannon-Wiener、Fisher-α、Margalef三个综合性物种多样性指数均显示物种多样性在中海拔地区最高;与其它多样性指数相比,Simpson指数未能很好地反映出不同海拔段群落物种多样性的垂直分布差异;而与Shannon-Wiener和Simpson指数相比,Fisher-α和Margalef指数对不同物种组成的群落多样性区分较好。同时,基于不同海拔段物种组成的聚类分析结果也表明物种多样性在中海拔地区最高。物种多样性在中海拔地区最高的垂直分布模式提示我们在贡嘎山地区的生物多样性保护和生态管理中应特别重视中海拔地段,因为该地段中居于生态食物链中间位置的小兽物种最丰富,是山地生物多样性保护的关键。此外,规范统一的调查方法将有利于研究数据的整合和减少人为因素带来的误差。     

长江流域淡水软体动物物种多样性及其分布格局简

研究以正式发表的淡水软体动物文献和部分未发表野外调查数据为基础资料,分析了长江流域淡水软体动物物种多样性及分布格局。长江流域已报道的软体动物有296种,隶属17科62属,其中有197种是中国特有种。田螺科、肋蜷科、盖螺科、椎实螺科和蚌科是长江流域软体动物的主要组成部分,这5科种类数之和达249种,占总数的84.1%。从总体上低海拔地区的软体动物物种数高于高海拔地区,而高海拔地区特有种所占的比例却高于低海拔地区。支流和湖泊的种类数接近,分别为202种和210种,远高于长江干流(31种)。各水系软体动物的种类数、特有种数及特有种比例明显不同,洞庭湖水系和鄱阳湖水系的多样性最高。聚类分析表明,长江流域软体动物的分布基本反映了流域内的地势特点,形成了高原、中低海拔山地和低海拔平原的分布格局。不同类群的物种其分布格局也不相同,田螺科和椎实螺科的分布范围较广,肋蜷科和盖螺科种类分布范围狭窄,多数种类仅存在于单个水系,蚌科种类分布最为集中,以鄱阳湖和洞庭湖的种类最为丰富,种类数分别为58种和45种。研究表明,金沙江下游(云贵高原湖泊)、鄱阳湖和洞庭湖软体动物物种多样性丰富,建议将其列为我国淡水软体动物急需关注和保护的热点地区。     

长江流域淡水软体动物物种多样性及其分布格局

研究以正式发表的淡水软体动物文献和部分未发表野外调查数据为基础资料,分析了长江流域淡水软体动物物种多样性及分布格局。长江流域已报道的软体动物有296种,隶属17科62属,其中有197种是中国特有种。田螺科、肋蜷科、盖螺科、椎实螺科和蚌科是长江流域软体动物的主要组成部分,这5科种类数之和达249种,占总数的84.1%。从总体上低海拔地区的软体动物物种数高于高海拔地区,而高海拔地区特有种所占的比例却高于低海拔地区。支流和湖泊的种类数接近,分别为202种和210种,远高于长江干流（31种）。各水系软体动物的种类数、特有种数及特有种比例明显不同,洞庭湖水系和鄱阳湖水系的多样性最高。聚类分析表明,长江流域软体动物的分布基本反映了流域内的地势特点,形成了高原、中低海拔山地和低海拔平原的分布格局。不同类群的物种其分布格局也不相同,田螺科和椎实螺科的分布范围较广,肋蜷科和盖螺科种类分布范围狭窄,多数种类仅存在于单个水系,蚌科种类分布最为集中,以鄱阳湖和洞庭湖的种类最为丰富,种类数分别为58种和45种。研究表明,金沙江下游（云贵高原湖泊）、鄱阳湖和洞庭湖软体动物物种多样性丰富,建议将其列为我国淡水软体动物急需关注和保护的热点地区。       

神农架保护区大步甲和蜗步甲属生境选择与物种多样性研究

针对神农架保护区12个代表地点的6种生境,利用巴氏罐诱法研究大步甲属（Carabus)和蜗步甲属（Cychrus)的物种和数量分布,研究发现：（1）本地区有大步甲7种,蜗步甲2种,其中Cy.bispinosus shennongding,C.ahshimaianus,C.blumenthaliellus和C.yokoae是本地的常见种,分布区域广,占个体总数的88．2％,（2）物种分布与度密切相关,常见种的垂直分布范围比较宽,海拔区间大于1000m,其他种分布相对较窄,垂直区间小于500m,从物种分布特点看,在海拔1500－2000m的范围内种类最多,在海拔2000－2500m的范围内个体数量最多,在海拔500－1000m范围内种类和数量均相对较少,（3）人为或自然干扰程序影响物种的种类组成和个体数量分布,剧烈干扰减少物种种类和数量,在中等干扰的情况下,物种种类国多,在轻度干扰的情况下,物种个体数量较多,在几乎没有干扰的情况下,物种的种类和数量也呈下降趋势,（4）生境类型影响物种的数量分布,C.blumenthaliellus的个体数量在草甸内远高于其他生境,C.yokoae在阔叶林内数量显著高于草甸,C.ohshimaianus在针叶林的数量明显高于混交林和草甸,Cy.bispinosus shennongding也倾向分布在混交林和草甸内,如果以属为单元进行比较,大步甲和蜗步甲属在不同生境内的数量变化没有达到显著性差异,但大步甲在混交林内数量低于其他生境,蜗步甲属在混交林和草甸内有数量优势,（5）比较物种多样性指数值,溪边灌丛最高,针叶林最低,均匀度指数值阔叶林最高,针叶林最低,从物种丰富度看,混交林和溪边灌丛最高,其次为针叶林,本研究结果表明,海拔和干扰程度了大步甲和蜗步甲物种种类分布,生境影响数量分布,为了保护这两属的物种多样性,要保护不同类型的特殊生境,尽量保护生境的样化,尽力控制人为干扰,减缓自然干扰,只有这样才会丰富该地区的物种多样性。     

太白山北坡小型兽类物种多样性垂直分布格局北大核心CSCD

物种多样性沿海拔梯度的垂直分布格局一直是生物多样性研究的热点问题,其中最为普遍的分布模式为中峰格局。为了解太白山北坡小型兽类物种组成和物种多样性垂直分布格局,本研究于2020和2021年两年的6至9月采用样线法、铗日法和陷阱法对太白山北坡小型兽类物种进行调查。在海拔780~3767.2 m之间,以200 m为梯度,设置采集样点15个,累计布置4150铗次,陷阱105个,样线8条。共记录小型兽类4目7科12属21种148只,阔叶林中的小型兽类物种多样性普遍高于针叶林,物种多样性在中海拔地区栓皮栎(Quercus variabilis)林、锐齿槲栎(Q.aliena)林最高,高海拔地区秦岭冷杉(Abies fargesii)林最低。小型兽类物种多样性垂直分布格局为左偏倚中峰格局,物种多样性在1500~2300 m海拔段内出现峰值。这种分布格局和林型中小型兽类东洋界与古北界、特有种与非特有种在太白山地区交汇有关,太白山北坡南北纵列的山脉-沟谷地貌为南北物种扩散和迁移提供了有利条件,在沟谷内气候和地理特征相似,形成了规律的林型垂直带谱,这使得小型兽类物种多样性垂直分布也具有相似的特点。     

秦岭小陇山保护区维管植物丰富度和种域海拔梯度格局及其对Rapoport法则验证

物种丰富度和种域的海拔梯度格局及其形成机制一直是生物地理学和生物多样性研究的重点.海拔Rapoport法则认为,物种丰富度随海拔升高而逐渐降低,种域逐渐变宽.本文分析了秦岭小陇山国家级自然保护区维管植物物种丰富度及其种域宽度的海拔梯度格局;采用4种常用方法,验证不同类群、不同生长型和不同阶元的物种丰富度与其分布中点间的关系,并检验其是否支持海拔Rapoport法则.结果表明: 除窄域种外,秦岭小陇山维管植物物种丰富度随海拔升高呈先升后降的单峰分布格局;狭域种主要分布在低海拔和高海拔段,低海拔段的丰富度高于高海拔段;物种海拔分布宽度与海拔关系因不同类群和验证方法而异,随分类阶元的增大更容易支持Rapoport法则,这可能与不同分类阶元所占据的生态位不同有关;被子植物的平均种域呈单峰分布格局,蕨类植物和裸子植物的种域海拔梯度格局无明显规律;藤本植物平均种域随海拔升高而变宽,灌木能适应不同的环境条件,因此,灌木分布对海拔梯度的变化不敏感.Pagel验证方法最容易支持Rapoport法则,Stevens方法次之,中点法受中域效应的影响物种平均种域分布呈单峰分布格局而不支持Rapoport法则,逐种法受散点图分布格局的影响线性模型拟合结果解释力很低.
     

铜壁关自然保护区种子植物物种丰富度的海拔梯度格局——兼论物种密度的计算方法

利用对铜壁关自然保护区多次考察形成的种子植物数据库,结合通过GIS生成的区域数字高程模型(DEM)数据,分析了该区域种子植物物种丰富度及物种密度沿海拔梯度的变化特征。结果表明, 科、属、种的丰富度随海拔的升高,先增加后降低,在中海拔区域达到最大值,科、种的丰富度最大值出现在海拔1400~1800 m的范围内,属的丰富度最大值出现在1000~1400 m的海拔范围。科、属、种的密度随海拔升高先下降后上升,再下降后再上升;且最大值都出现在保护区最高海拔3000~3400 m的范围内。物种丰富度和物种密度分布格局明显受到海拔梯度的影响,海拔梯度综合了水热条件等诸多因素。铜壁关种子植物科、属、种水平上的物种丰富度的海拔分布格局符合中域效应假说;同时还对目前常用的计算物种密度的"对数模型"方法的普遍适用性提出质疑。     

Flowering phenology of Campanula on Mt Olynipos, Greece

We studied the fowering phenology of the genus Campanula (represented by nine species) along the elevation gradient of Mt Olympos (Greece) in order to assess whether there are elevation patterns at the genus level and whether these relate to patterns previously observed along such gradients at the community level. The traits examined were time and duration of the flowering period, flower life span, and duration of male and female flower phases. Floral attributes, such as number of flowers per plant, flower biomass, flower size, were also studied in order to examine whether they change with elevation or influence flower phenology. Flowering of Campanula species started in mid-May and ended in late September. The average duration of flowering of the genus was ca 27 d and the average floral longevity 4 d. In all but one species, the female phase lasted longer than the male. Campanula versicolor differed remarkably from all others in flower phenology and other floral trails. Nearly all Campanula populations studied had right or positively skewed flowering distributions indicating that flowering begins more abruptly than it ends. At the genus level, the time of flowering increased with elevation by 2 3d for every 100 m. Floral longevity also increased with elevation, by 0,2 d for every 100 m. Neither duration of flowering nor duration of the flower phases showed any consistent change with elevation. The same is true of the non–phenological floral traits examined. No trade–off between duration of flowering and flower life span or between structure and maintenance of flowers was apparent. The pattern of increasing floral longevity along the elevation gradient suggests a mechanism of compensation for reduecd pollinator availability.     

Elevational patterns in the vascular flora of a highly diverse region in southern Mexico

We examined general and family-specific patterns of vascular plant richness along a large elevational gradient (0?C3,670?m a.s.l.), assessed the continuity of these patterns and analysed their potential underlying causes in a high diversity region of the Sierra Madre del Sur, Oaxaca, Mexico. We used a vascular plant database constructed previously. The gradient was divided into 18 200-m elevation belts. To examine elevational patterns of richness, we used both observed and estimated (interpolated) species richness, as well as genus and family observed richness, for each belt. A generalised linear model (GLM) was used to assess the effect of altitude on area-corrected species richness (standard area?=?100?km²), and a numerical classification of the elevational belts based on species richness was performed. Overall, richness at the three taxonomic levels decreased with elevation, but some individual families departed from this pattern. A sharp drop in species richness was observed at 1,800?m, and the dendrogram separated two elevational floristic groups at this elevation. The GLM revealed a significant negative effect of elevation on species richness. Despite this overall decreasing pattern for vascular plants along this extensive gradient, an examination of some family-specific patterns revealed the existence of other elevation?Cdiversity relationships, indicating taxon-specific responses to elevation. The most noticeable discontinuity in species richness, at ca. 1,800?m, is likely related to a critical temperature isocline.     

Reproductive attributes of <Emphasis Type="Italic">Campanula</Emphasis> populations from Mt Olympos,Greece

We studied five reproductive attributes (fruit production and volume, seed content and weight, and seed germination) of different populations of Campanula species occurring along the elevation gradient of Mt Olympos, the highest mountain of Greece (2917 m), in order to examine whether and how they change with elevation, and if there are trade-offs among them. We also studied flower and fruit (reproductive) losses and population features in order to estimate whether there might be a threat to the survival of Campanula species on Mt Olympos. The genus is represented by nine species, ranging from cosmopolitan to steno-endemic. All species were found non-autogamous, and hence they depend on pollinators for their sexual reproduction. At the genus level, there is a trade-off between seed content per fruit and seed weight. At the species level, this is manifested only for C. glomerata, which produces the heaviest seeds, far exceeding all other species, and for C. spatulata, represented on Mt Olympos by two elevation distinct subspecies. Changes of the reproductive attributes are not continuous all along the elevation gradient at the genus level nor are they monotonic at the species level. Nevertheless, upland Campanula populations (≥1500 m) produce fewer fruits per individual, containing fewer but heavier seeds than lowland populations. This indicates a transition from ‘r’ to ‘K’ strategies, from low to high elevations, respectively. The patterns of change of reproductive attributes indicate prevalence of phylogenetic over environmental constraints. Laboratory tests showed that for many populations germinability is high at 15 °C, but there are both inter- and intraspecific differences regarding temperature optima. Ecotypic variation among populations of the same species at different elevations was evident; populations from higher elevations had lower optima and vice versa. Reproductive losses, ranging from zero to over 90%, occurred mainly at the stage of fruit maturation; grazing by sheep and goats was the usual cause. Though such losses might affect the short-lived species (the annual C. sparsa and the biennial C. lingulata), which depend entirely on fruit maturation and seed dispersal for their reproduction, there does not seem to be a serious threat to the survival of Campanula species on the mountain.     

Scale‐dependent thermal tolerance variation in Australian mountain grasshoppers

Physiological variation among and within species is thought to play a key role in determining distribution patterns across environmental gradients. We tested inter‐ and intraspecific variation in cold and heat tolerances for three grasshopper species (genus Kosciuscola) with overlapping elevation distributions, across their respective ranges in the Australian mountains. Of the three cold tolerance traits measured, the critical thermal minimum was the only trait to vary among species, with greater cold tolerance associated with a distribution extending to a higher elevation. Cold tolerance limits were regularly exceeded in exposed microhabitats, suggesting a role for cold adaptation in structuring species distribution patterns. In contrast to cold tolerance, heat tolerance variation was primarily partitioned within species. For two species, populations from treeless alpine habitat were more heat tolerant than their lower‐elevation counterparts, supporting recent models that suggest greater exposure to temperature extremes at higher elevations. These contrasting patterns of physiological variation among and within species emphasise the importance of considering variation within species when attempting to understand how species distributions are affected by thermal extremes.     

Increasing arboreality with altitude: a novel biogeographic dimension

Biodiversity is spatially organized by climatic gradients across elevation and latitude. But do other gradients exist that might drive biogeographic patterns? Here, we show that rainforest''s vertical strata provide climatic gradients much steeper than those offered by elevation and latitude, and biodiversity of arboreal species is organized along this gradient. In Philippine and Singaporean rainforests, we demonstrate that rainforest frogs tend to shift up in the rainforest strata as altitude increases. Moreover, a Philippine-wide dataset of frog distributions shows that frog assemblages become increasingly arboreal at higher elevations. Thus, increased arboreality with elevation at broad biogeographic scales mirrors patterns we observed at local scales. Our proposed ‘arboreality hypothesis’ suggests that the ability to exploit arboreal habitats confers the potential for larger geographical distributions because species can shift their location in the rainforest strata to compensate for shifts in temperature associated with elevation and latitude. This novel finding may help explain patterns of species richness and abundance wherever vegetation produces a vertical microclimatic gradient. Our results further suggest that global warming will ‘flatten’ the biodiversity in rainforests by pushing arboreal species towards the cooler and wetter ground. This ‘flattening’ could potentially have serious impacts on forest functioning and species survival.     

广西十万大山蕨类植物区系特征及垂直分布的数量研究

十万大山植物区系位于北回归线以南,蕨类植物非常丰富,现已发现５２仲、１１３属、２６４种。区系地理成分复杂多样,属可以划分１１种类型（变型）,可种可以划分为１４种类型（变型）。本区系具有明显的热带亲缘,热带分布属占８１．４２％,热带分布种占６６．７７％。亚洲热带分布及其变型占有较大的比例,表明本区系与亚洲热带植物区系特别是中南半岛区系有密切的亲缘关系。区系地理成分有明显的垂直分布规律,聚类分析的结果     

数种癞蝗酯酶同工酶的比较研究及其在分类上的应用

本文应用聚丙烯酰胺凝胶电泳方法分析了癞蝗科三属及一种共十四个种群的酯酶同工酶(EST),结果证明EST在属内具有某些共性.同一种群的个体不存在明显的差异,不同种群间略有差异,而种间则差别非常明显.生化和形态特征结合进行的聚类分析提出将短鼻蝗属的三个类群提升到属或亚属的地位,同时还支持将种群7C和9独立成新种.     

秦岭种子植物区系中的珍稀濒危植物

在秦岭种子植物区系中有34种国家二类和三类珍稀濒危保护植物,其中濒危2种、稀有17种、渐危15种。地理成分分析表明,在属一级水平上以北温带成分、中国特有成分及东亚成分为主,种一级水平上以华中区系成分为主。野外调查发现其中2种分布于秦岭北坡,7种见于秦岭南坡,其余25种广布于秦岭南北坡;珍稀濒危植物的垂直分布多集中于海拔1000－2000m之间。     

Californian Salt-Marsh Vegetation: An Improved Model of Spatial Pattern

Although tidal wetland vegetation patterns are typically related to elevation, we hypothesized that the vertical range of a species may shift where the topography is more heterogeneous. We examined plant species occurrences in relation to elevation, proximity to the bay, and proximity to tidal creeks at a near-pristine wetland in San Quintín Bay, Baja California, Mexico. At the whole-wetland scale, most species occurred primarily within a 30-cm elevation band (the marsh plain). However, Spartina foliosa occurred only at the bayward margin, even though “suitable” elevations were present further inland. A similar pattern was found in San Diego Bay. At the microtopographic scale, three species on the marsh plain were strongly influenced by elevation, whereas four species responded to both elevation and proximity to tidal creeks. The latter species tended to “avoid” the lower 10 cm of the marsh plain except near a tidal creek. Species richness was thus greater (by 0.6 species at the lowest 10-cm class) at the tidal creek margin. Better drainage near creeks is the hypothesized cause. Our results help explain why species that are transplanted to constructed wetlands do not always grow at the full range of elevations they occupy in natural wetlands. We recommend that species be introduced to their modal elevation (determined from nearby reference marshes) and that salt-marsh construction designs include topographic heterogeneity (complex tidal creek networks). The analysis of broad-scale and fine-scale patterns of occurrence also suggests new habitat nomenclature. Elevation-based terms (“low,”“middle,” and “high” marsh) should be replaced by a system that considers elevation, landscape position, and conspicuous species. We suggest three habitat designations: (a) the high marsh—a 30- to 70-cm elevation range with Salicornia subterminalis; (b) the marsh plain—a 30-cm elevation range with heterogeneous topography and up to nine common species; and (c) cordgrass habitat—the bayward portion of the marsh plain and lower elevations, all occupied by Spartina foliosa. Although these habitats do not have discrete boundaries, separate terms are needed for wetland restoration plans and these designations will improve recognition that vegetation patterns respond to horizontal, as well as vertical, position.