三工河流域荒漠绿洲植被动态及其成因分析

以三工河流域为例,讨论了植被动态及其地貌、水资源利用、河流廊道和排碱渠等景观要素的变化对植被产生的影响.结果表明,随着景观格局的变化,流域内的植丛高度、盖度及生物量均表现出较大变异性.以河流廊道为核心,通常荒漠绿洲景观格局呈带状分布,且由内向外随水热条件的改变,植被类型由乔灌木林依次向灌丛草甸、盐化草甸、荒漠化草甸和荒漠层次结构过渡.人类活动影响强烈的景观要素,其斑块多样性、破碎度、分离度和斑块密度等指数值较高,而人类活动影响较小的,其优势度和均匀度较高.各景观要素的稳定性不同,其大小顺序为:荒漠>沙砾石地>城镇用地>水体>农田>牧草地>菜地>林地>居民点>盐碱地>荒草地>水浇地>果园.梭梭群落的净生长量高峰值出现在8月,而博乐蒿、琵琶柴群落的净生长量高峰值出现时间各年度不同.博乐蒿群落与海拔相关系数最大,而琵琶柴群落则与土壤水含量、地下水位关系密切,梭梭群落与4～9月降雨量相关系数最大.     

三工河流域荒漠绿洲植被动态及其成因分析

以三工河流域为例,讨论了植被动态及其地貌、水资源利用、河流廊道和排碱渠等景观要素的变化对植被产生的影响．结果表明,随着景观格局的变化,流域内的植丛高度、盖度及生物量均表现出较大变异性．以河流廊道为核心,通常荒漠绿洲景观格局呈带状分布,且由内向外随水热条件的改变,植被类型由乔灌木林依次向灌丛草甸、盐化草甸、荒漠化草甸和荒漠层次结构过渡．人类活动影响强烈的景观要素。其斑块多样性、破碎度、分离度和斑块密度等指数值较高,而人类活动影响较小的,其优势度和均匀度较高．各景观要素的稳定性不同,其大小顺序为：荒漠>沙砾石地>城镇用地>水体>农田>牧草地>莱地>林地>居民点>盐碱地>荒草地>水浇地>果园．梭梭群落的净生长量高峰值出现在8月,而博乐蒿、琵琶柴群落的净生长量高峰值出现时间各年度不同．博乐蒿群落与海拔相关系数最大,而琵琶柴群落则与土壤水含量、地下水位关系密切,梭梭群落与4～9月降雨量相关系数最大。     

荒漠-绿洲过渡带不同生境植被生产力格局对降雨的响应

景观格局分析是理解生态过程发生、发展的重要方法。为了探讨干旱区不同生境植被生产力格局对偶发降雨事件的响应,本研究以荒漠-绿洲过渡带砾质荒漠和沙质荒漠生境为对象(样区面积分别为1650 hm~2),利用2017年6月22日—6月29日MODIS系列日数据,对一次降雨事件后不同生境生产力格局变化过程进行了分析。结果表明:两种生境景观变化不同,砾质荒漠生境植被生产力(NDVI)未增加面积大于沙质荒漠生境,砾质荒漠生境的植被生产力变化主要集中在0～0.01,景观面积波动范围为612.5～1200 hm~2;沙质荒漠生境植被生产力增加范围集中在大于0.01,景观面积波动范围为150～1587.5 hm~2;在干旱区降雨事件发生后,随时间推移砾质荒漠生境景观趋于破碎化,沙质荒漠生境景观中简单斑块成为景观格局主体。     

库姆塔格沙漠南缘荒漠植物群落多样性分析

 根据20个样地的调查资料,应用重要值计算多样性指数、均匀度指数、丰富度指数 、优势度指数,对库姆塔格沙漠南缘荒漠植物群落物种多样性进行分析。结果表明: 1）荒漠植物群落分布随其生境地貌不同而不同,山前戈壁上分布有合头草(Sympegma regelii)群落,冲积河道低地分布有荒漠林胡杨(Populus euphratica)、多枝柽柳(Tamarix ramosissima)、胀果甘草（Glycyrrhiza inflata）群落,戈壁沙漠过渡带为梭梭(Haloxylon ammodendron)群落,低海拔的沙山上分布有沙拐枣(Calligonum mongolicum)群落、膜果麻黄(Ephedra rzewalskii)群落和梭梭群落。2）荒漠植物群落物种多样性水平较低,群落结构简单,物种组成单一。群落Shannon_Wiener物种多样性水平表现为合头草群落最高（1.706）,具有草原化荒漠植被类型的成分;梭梭群落、膜果麻黄群落居中（0.875～0.890）,荒漠植被类型特征明显;沙拐枣群落、胡杨群落、多枝 柽柳群落、胀果甘草群落较低（0.079～0.495）,荒漠林、盐地沙生灌丛及盐化草甸植被均有零星分布。3）荒漠植物群落结构层次中,灌木层占居主导地位,群落灌木层物种多样性水平（0.769～1.451）远远大于草本层（0.193～0.254）,且草本层物种多样性受灌木层影响较大。4）荒漠植物群落物种多样性分布格局表现为经向、纬向和海拔梯度的变化,经向、纬向变化为物种多样性水平较高的草原化植物合头草群落（1.706）向物种多样性水平较低的荒漠植物梭梭群落（1.379）和盐化植物多枝柽柳群落（0.376）的过渡,海拔梯度则 呈现低水平的沙拐枣群落（0.819）到高水平的膜果麻黄群落（0.890）向低水平的梭梭群落 （0.645）变化。荒漠植物群落过渡地带一般具有较高的物种多样性和较低的生态优势度。     

3种荒漠灌木的用水策略及相关的叶片生理表现

以新疆古尔班通古特沙漠南缘原始盐生旱生荒漠的3种建群灌木多枝柽柳(Ｔamarix ramosissima)、梭梭(Ｈaloxylon ammodendron)和琵琶柴(Reaumuria soongorica)为对象,跟踪自然降雨过程,利用LI-6400光合作用系统和Model 3005植物水分压力审测定光合作用和叶水势的变化,以研究浅层土壤水分条件改变对荒漠灌木主要叶片生理特征的影响;并在原始生境中将植株根系完整地深挖取出,进行根系形态结构调查,以确定此3种灌木根系功能型与用水策略。当浅层土壤分别处在水分充足及匮缺的条件下时．测定3种灌木的光合作用响应曲线和日过程曲线．以及黎明前和止午叶水势,结果表明：浅层土壤水分状况变化时,3种灌木的光合能力均没有显著改变;多枝柽柳的叶水势亦没有明显波动;而梭梭和琵琶柴的叶水势却表现出显著差异。在两种功能型根中,多枝柽柳为深根型,生存和乍理活动的维持主要依赖于地下水;而梭梭和琵琶柴为非深根型植物,主要水源是降水形成的浅层土壤水,其用水策略是根据水分条件行效调节根系和冠层生长,从而维持正常的光合作用。即荒漠灌木在长期适应的过样中．已形成不同的根系功能型和用水策略;叶水势对浅层土壤水分状况变化的种间差异性响应在一定程度上反映了这一点。同时．此3种荒漠灌小通过不同的个体适应策略都能够实现水分平衡和碳收支的有效调节,这主要体现为浅层土壤水分条件变化时光合响应的种间一致性。     

孔雀河下游断流河道的环境特征及物种间关系

基于孔雀河下游断流河道的环境因子和植被样地数据,采用聚类与CCA排序法,分析了生境的退化特征以及物种间的相互关系,结果表明:1)断流河道退化生境分为绿洲-荒漠过渡类型、轻度荒漠化类型和盐土荒漠化类型。绿洲-荒漠过渡类型地下水位低、盐分含量相对较低,植被盖度相对较高,土壤维持着原砂质壤土,为潜在退化型;轻度荒漠化类型地下水位、土壤质地与含盐量与前者基本相同,土壤未明显退化,但植被盖度低于10%,植物种类与个体数目都较低,属于轻度退化型;盐土荒漠化类型地下水位高、盐分含量高,土壤机械组成中砂粒比重较大、无建群种幸存,属于重度退化型。2)绿洲-荒漠过渡类型总体联结性为显著正联结,正负联结比小于1,生态系统表现为建群种维系物种关系的不稳定状态;轻度荒漠化类型总体联结性为不显著负联结,正负联结比小于1,表现出生态系统进入退化演替的阶段;盐土荒漠化类型总体联结性为显著正联结,正负联结比大于1,表现出重度退化群落的种间平衡状态,物种间以达到稳定共存,其中,真盐生植物对这种平衡的维持起着重要的作用。3)CCA排序表明,绿洲-荒漠过渡类型形成以胡杨为中心的种间正联结,幸存于盐分适中、水分养分相对较高的生境;轻度荒漠化类型,形成以多枝柽柳与刚毛柽柳相互依存的不显著负联结,幸存于土壤养分、水分相对较低的生境;盐土荒漠化类型形成以盐爪爪、盐节木、盐穗木等真盐生植物维系的显著正联结,幸存于土壤贫瘠、地下水位浅、盐分含量高、沙化严重的生境。     

共生条件下三种荒漠灌木的根系分布特征及其对降水的响应

以全根系挖掘法,对共生于原始盐生荒漠生境中的多枝柽柳[Tamarix ramosissima (Ledeb.)]、梭梭[Haloxylon ammodendron(C. A. Mey.)Bunge]、琵琶柴[Reaumuria soongorica (Pall.) Maxim.]的根系分布特征进行了研究;对降水引发的湿润-干旱周期中植物同化枝水势、蒸腾速率的变化过程进行了跟踪观测,并据此计算3种植物的水分胁迫效应指数和土壤-植物系统导水度,以最终确定3种植物用水策略和其对降水的响应特征.研究结果表明,多枝柽柳的吸收根系分布范围从地下50cm到310cm,单株平均总吸收根表面积为30249.2cm2;梭梭的根系分布范围0～250cm,单株平均总吸收根表面积12847.3 cm2;琵琶柴的根系分布范围0～80cm,单株平均总吸收根表面积361.8 cm2.多枝柽柳为深根植物,主要利用地下水和深层土壤水,在降水引发的湿润-干旱周期中,其植物水分生理参数对降水无响应.琵琶柴为浅根植物,对降水响应极为显著.梭梭的根系分布特征介于多枝柽柳和琵琶柴之间,对地下水和降水都有利用,对降水响应显著.3种荒漠灌木对降水的响应差异显然与其根系分布、水分利用策略密切相关,在未来降水发生变化的情景下,根系分布特征的差异将决定着植物在水分资源竞争中的地位.具有较强根系形态可塑性的物种,如梭梭,将具有明显的竞争优势.     

新疆若干植物群落对土壤和地下水指示性的初步研究

本文对北疆玛纳斯河流域和南疆策勒河流域共10种植物群落与土壤和地下水的关系进行了初步研究,分析了一些植物的指示意义。1．多枝柽柳是一种富Cl和S的植物,它所生长的土壤中Cl-和SO42-的含量较高．生长多枝柽柳群落的土壤盐化类型一般为氮化物、硫酸盐型1）。2．梭梭和白梭梭的化学元素类型很相似,它们都是富Na植物．土壤中Na+离子的相对含量一般在50%以上。3．琵琶柴在南疆多分布在砾质戈壁上,在北疆则多出现于黄土状母质上。一般说来,琵琶柴生长地段0—30cm土层内的盐分平均含量不超过1%。4．花花柴是一种潜水指示植物,它的地下水深度一般不超过3m。花花柴也是一种富S植物,土壤中SO42-离子的相对含量较高。5．疏叶骆驼刺是一种淡水指示植物。在南疆多生长在沙丘间低地和平沙地上．地下水深多在5m以下,土壤盐渍化较弱。6．铃铛刺也是潜水植物,在玛纳斯河流域它一般指示地下水深度在2—4m左右．该植物体内的低灰分含量与土壤弱盐渍化程度相联系。7．膜果麻黄生长在砾沙质的棕色荒漠土上,土体中有明显的石膏淀积层。8．黑刺是典型盐土植物,所在土壤0—30cm平均含盐量大于2%,黑刺是富Na和富Cl植物,土壤中Na+离子和Cl-离子的相对含量也较高。 9．昆仑蒿总是与昆仑黄土相联系,它是一种富K植物,可用来指示土壤中K的较高含量。     

人工固沙植被恢复对地表节肢动物群落组成及多样性的影响

人工绿洲是干旱区主要的自然景观之一,为了维护绿洲稳定而营建的防护林强烈改变地表生态水文过程,进而影响着地上和地下生物多样性。然而,以往的研究对地上植被关注较多,而对土壤动物研究较少。以张掖绿洲外围人工固沙植被群落和天然固沙植被群落为研究对象,探讨人工固沙植被恢复对荒漠地表节肢动物群落组成及多样性的影响及不同动物类群对植被变化的响应模式。研究表明,天然固沙植被群落转变为人工固沙植被群落显著降低了地表节肢动物数量,但提高了地表节肢动物类群丰富度和多样性,这在5月份表现尤为明显。植被类型对地表节肢动物群落的影响不同,8月人工柽柳林群落地表节肢动物活动密度、类群丰富度和多样性均显著高于人工梭梭林群落。人工固沙植被恢复显著降低了适应荒漠环境的拟步甲科甲虫,而蚁科和部分蜘蛛的数量显著增加,它们对人工固沙植被恢复的响应模式不同决定了群落结构及多样性的变化规律。此外,研究还发现一些地表节肢动物类群对不同生境具有强烈的指示作用,如拟步甲科等可指示荒漠生境,潮虫科等可指示梭梭林生境,而蠼螋科和狼蛛科等可指示柽柳林生境。综上所述,人工栽植固沙灌木形成的固沙植被群落导致了一些适应荒漠环境的地表节肢动物类群的数量降低,但也为更多的地表节肢动物类群提供了适应栖居环境和充足的食物资源等,从而提高了地表节肢动物的多样性。     

近10年艾比湖湿地不同植物群落土壤水分 盐分 养分变化特征

为研究新疆准噶尔盆地艾比湖湿地不同植物群落近10年土壤水盐及养分的动态变化,以环湖1周160km范围内的典型植被梭梭-柽柳、梭梭、胡杨、芦苇群落为研究对象,分析其在2006和2015年土壤含水量、盐分含量、pH值和有机质含量的变化和空间分布特征。结果表明:(1)近10年艾比湖湿地不同植物群落土壤有机质含量和含水量明显下降且整体水平较低,二者分别下降了24.65%~48%和5.41%~20.16%;土壤含盐量、pH值分别上升81.92%~128.74%和2.99%~4.21%,土壤盐碱程度加强。(2)通过土壤水分-盐分-养分空间分布分析显示,各群落近10年土壤盐渍化增加、养分降低程度大小表现为梭梭-柽柳群落胡杨群落梭梭群落芦苇群落,其中梭梭-柽柳群落土壤达到重度盐化水平,有机质降到6级,而其他群落土壤均为中度盐化,有机质为4级,但芦苇群落土壤退化程度较小。研究发现,近10年艾比湖湿地不同植物群落土壤养分不断下降、水分含量降低、盐渍化程度加剧,土壤处于退化状态;土壤质地、降水和气温暖干化是不同植物群落下土壤退化程度差异的基础,人口、耕地面积和农业用水等人类活动使各群落土壤退化程度的差异更加显著。     

Climatic and Landscape Influences on Fire Regimes from 1984 to 2010 in the Western United States

An improved understanding of the relative influences of climatic and landscape controls on multiple fire regime components is needed to enhance our understanding of modern fire regimes and how they will respond to future environmental change. To address this need, we analyzed the spatio-temporal patterns of fire occurrence, size, and severity of large fires (> 405 ha) in the western United States from 1984–2010. We assessed the associations of these fire regime components with environmental variables, including short-term climate anomalies, vegetation type, topography, and human influences, using boosted regression tree analysis. Results showed that large fire occurrence, size, and severity each exhibited distinctive spatial and spatio-temporal patterns, which were controlled by different sets of climate and landscape factors. Antecedent climate anomalies had the strongest influences on fire occurrence, resulting in the highest spatial synchrony. In contrast, climatic variability had weaker influences on fire size and severity and vegetation types were the most important environmental determinants of these fire regime components. Topography had moderately strong effects on both fire occurrence and severity, and human influence variables were most strongly associated with fire size. These results suggest a potential for the emergence of novel fire regimes due to the responses of fire regime components to multiple drivers at different spatial and temporal scales. Next-generation approaches for projecting future fire regimes should incorporate indirect climate effects on vegetation type changes as well as other landscape effects on multiple components of fire regimes.     

Are potential natural vegetation maps a meaningful alternative to neutral landscape models?

Abstract. In this paper, we present a short overview of neutral landscape models traditionally adopted in the landscape ecological literature to differentiate landscape patterns that are the result of simple random processes from patterns that are generated from more complex ecological processes. Then, we present another family of models based on Tuxen’ s definition of potential natural vegetation that play an important role, especially in Europe, for landscape planning and management. While neutral landscape models by their very nature do not take into account vegetation dynamics, nor abiotic constraints to vegetation distribution, the concept of potential natural vegetation includes the effects of vegetation dynamics in a spatially explicit manner. Therefore, we believe that distribution maps of potential natural vegetation may represent an ecological meaningful alternative to neutral landscape models for evaluating the effects of landscape structure on ecological processes.     

Landscape issues in plant ecology

In the last decade, we have seen the emergence and consolidation of a conceptual framework that recognizes the landscape as an ecological unit of interest. Plant ecologists have long emphasized landscape-scale issues, but there has been no recent attempt to define how landscape concepts are now integrated in vegetation studies. To help define common research paradigms in both landscape and plant ecology, we discuss issues related to three main landscape concepts in vegetation researches, reviewing theoretical influences and emphasizing recent developments. We first focus on environmental relationships, documenting how vegetation patterns emerge from the influence of local abiotic conditions. The landscape is the physical environment. Disturbances are then considered, with a particular attention to human-driven processes that often overrule natural dynamics. The landscape is a dynamic space. As environmental and historical processes generate heterogeneous patterns, we finally move on to stress current evidence relating spatial structure and vegetation dynamics. This relates to the concept of a landscape as a patch-corridor-matrix mosaic. Future challenges involve: 1) the capacity to evaluate the relative importance of multiple controlling processes at broad spatial scale; 2) better assessment of the real importance of the spatial configuration of landscape elements for plant species and finally; 3) the integration of natural and cultural processes and the recognition of their interdependence in relation to vegetation management issues in human landscapes.     

Interactive controls of herbivory and fluvial dynamics on landscape vegetation patterns on the Tanana River floodplain, interior Alaska

Aim  We examined the interactive effects of mammalian herbivory and fluvial dynamics on vegetation dynamics and composition along the Tanana River in interior Alaska.
Location  Model parameters were obtained from field studies along the Tanana River, Alaska between Fairbanks (64°50.50' N, 147°43.30' W) and Manley Hot Springs (65°0.0' N, 150°36.0' W).
Methods  We used a spatially explicit model of landscape dynamics (ALFRESCO) to simulate vegetation changes on a 1-year time-step. The model was run for 250 years and was replicated 100 times.
Results  Increases in herbivory decreased the proportion of early successional vegetation and increased the proportion of late successional vegetation on the simulated landscape. Erosion and accretion worked as antagonists to herbivory, increasing the amount of early successional vegetation and decreasing the amount of late successional vegetation. However, the interactive effects of herbivory and erosion/accretion were especially important in determining system response, particularly in early seral vegetation types. High erosion rates, when coupled with low herbivory, greatly increased the proportion of willow on the landscape. When coupled with high herbivory, however, they greatly increased the proportion of alder on the landscape. At low levels of herbivory, alder abundance peaked at intermediate levels of erosion/accretion.
Main conclusions  Neither erosion/accretion nor herbivory produced consistent landscape patterns that could be predicted independently of the other. These findings underscore the importance of the interactive effects of biotic and abiotic disturbances in shaping large-scale landscape vegetation patterns in boreal floodplain ecosystems – systems traditionally thought to be driven primarily by abiotic disturbance alone.     

Remotely sensed vegetation phenology and productivity along a climatic gradient: on the value of incorporating the dimension of woody plant cover

Aim Woody plants affect vegetation–environment interactions by modifying microclimate, soil moisture dynamics and carbon cycling. In examining broad‐scale patterns in terrestrial vegetation dynamics, explicit consideration of variation in the amount of woody plant cover could provide additional explanatory power that might not be available when only considering landscape‐scale climate patterns or specific vegetation assemblages. Here we evaluate the interactive influence of woody plant cover on remotely sensed vegetation dynamics across a climatic gradient along a sky island. Location The Santa Rita Mountains, Arizona, USA. Methods Using a satellite‐measured normalized difference vegetation index (NDVI) from 2000 to 2008, we conducted time‐series and regression analyses to explain the variation in functional attributes of vegetation (productivity, seasonality and phenology) related to: (1) vegetation community, (2) elevation as a proxy for climate, and (3) woody plant cover, given the effects of the other environmental variables, as an additional ecological dimension that reflects potential vegetation–environment feedbacks at the local scale. Results NDVI metrics were well explained by interactions among elevation, vegetation community and woody plant cover. After accounting for elevation and vegetation community, woody plant cover explained up to 67% of variation in NDVI metrics and, notably, clarified elevation‐ and community‐specific patterns of vegetation dynamics across the gradient. Main conclusions In addition to the environmental factors usually considered – climate, reflecting resources and constraints, and vegetation community, reflecting species composition and relative dominance – woody plant cover, a broad‐scale proxy of many vegetation–environment interactions, represents an ecological dimension that provides additional process‐related understanding of landscape‐scale patterns of vegetation function.     

Grazing as a factor structuring grasslands in the Pyrenees

Questions: What are the relative roles of abiotic and grazing management factors on plant community distribution in landscapes? How are livestock type and stocking rate related to changes in vegetation structure and composition? Location: Sub‐alpine grasslands in the central and eastern Pyrenees. Methods: Multivariate analysis and variance partitioning methods were used to evaluate the relative roles of environmental factors in structuring vegetation composition and diversity patterns in three surveys on differently managed grasslands. Results: Vegetation composition within a region was affected by environmental factors hierarchically, changing first according to abiotic factors and then to grazing management. At landscape scales, abiotic factors explained two‐fold more variation in vegetation composition than grazing factors. Within landscape units, cattle grazing increased vegetation heterogeneity at landscape and patch scales, while sheep grazing favoured the presence of a specific set of species with high conservation value. Species composition was highly responsive to management variables compared to diversity components. Conclusions: The combination of sheep and cattle grazing at various stocking rates is an effective tool to preserve the diversity of plant species and communities within a region with a long tradition of livestock management, through the scaling up of effects by local processes occurring in patches at smaller scales.     

气候、植被和地形对大兴安岭林火烈度空间格局的影响

在北方森林中火干扰是森林景观变化的主导因素。林火烈度作为衡量林火动态的重要指标,较为直观地反映了火干扰对森林生态系统的破坏程度,其空间格局深刻地影响着森林景观中的多种生态过程(如树种组成、种子扩散以及植被的恢复)。解释林火烈度空间格局有助于揭示林火干扰后森林景观格局的形成机制,对预测未来林火烈度空间格局以及制定科学合理林火管理策略均有重要意义。基于LandsatTM/ETM遥感影像,将2000—2016年大兴安岭呼中林区的36场火的林火烈度划分为未过火、轻度、中度、重度4个等级。采用FRAGSTAT景观格局分析软件从类型水平上计算了斑块所占景观面积比、面积加权平均斑块面积、面积加权平均斑块分维数、面积加权边缘面积比、斑块密度5个景观指数,以对林火烈度空间格局进行了定量化描述。并且采用随机森林模型,分析了气候、地形、植被对林火烈度空间格局的影响及其边际效应。通过研究得出以下结果:(1)相对于未过火、轻度、以及中度火烧斑块,重度火烧斑块的面积更大、形状更简单;(2)海拔对重度火烧斑块的空间格局起着至关重要的作用,其次是坡向、坡度、植被覆盖度、相对湿度、温度等;(3)随着海拔的升高,面积加权平均斑块面积和面积加权平均斑块分维数的边际效应曲线呈上升趋势,而面积加权边缘面积比和斑块密度呈下降趋势;除了面积加权平均斑块面积外,都受到火前植被覆盖度的影响,且植被覆盖度为0.2—0.3范围内,重度火烧斑块在景观中所占比例最大。总的来看,2000—2016年大兴安岭呼中森林景观中重度火烧斑块与未过火、轻度以及中度火烧斑块存在显著差异性。相对于气候,地形和植被对于塑造重度火烧斑块空间格局具有重要作用。因此,应针对重度火烧区域进行可燃物处理,从景观层面上合理配置森林斑块,从而降低高烈度森林大火发生的风险。     

A theoretical framework of ecological phase transitions for characterizing tree-grass dynamics

This paper describes a theoretical framework of ecological phase transitions for modeling tree-grass dynamics and analyzing the shifts or phase transitions from one vegetation structure to another in the southern Texas landscape. This framework implements the integration of percolation theory, fractal geometry and phase transition theory as a method for modeling the spatial patterns of tree-grass dynamics, and nonlinear Markov non-equilibrium thermodynamic stability theory as a method for characterizing temporal tree-grass dynamics and phase transition. An historical sequence of aerial photographs at a Prosopis - thornscrub savanna parkland site in southern Texas was used to determine the parameters of the models. The preliminary analytical result accords well with current understanding and field survey of vegetation dynamics in the southern Texas landscape. The potential of such approaches and other relevant theories such as self-organized criticality and synergetics to vegetation dynamics is also discussed.     

海河流域面源污染风险格局识别与模拟优化

面源污染是海河流域面临的主要水生态环境问题,如何通过流域景观格局优化实现对面源污染的控制一直是研究的热点问题。通过最小累积阻力模型,以海河流域为研究对象,将流域景观要素及影响流域景观过程的外部因子相结合,对海河流域面源污染风险格局进行了识别,并将阻力格局与海河流域实测水环境指标进行相关性分析及验证,在此基础上对流域污染风险进行识别与优化模拟。结果表明海河流域有40%以上(130380 km2)区域面临高污染风险,集中分布在中南部平原地区以及山区河谷地带;对此设置河流植被缓冲带进行格局优化模拟分析,通过比较不同措施格局优化阻力值变化趋势表明,对于二级河流水系,加强河流两岸600—1600 m范围的人类活动管控,可以有效降低污染物输出,显著降低流域面源污染发生的风险。在面源污染风险等级较高的平原地区,设置300—400 m植被缓冲带,可将风险等级降低50%,设置700—800 m岸边植被缓冲带即可达到最佳效果;而在山区地区因风险较低,设置400—500 m的植被缓冲带即可达到最佳效果,能够将污染风险在现有基础上降低30%—40%。这一研究结果对海河流域景观格局优化和面源污染风险控制提供科学参考。