草原和荒漠植物多样性监测网规划与建设进展

草原和荒漠是我国北方和青藏高原地区最主要的植被类型,生物多样性资源独特、丰富。草原和荒漠植物多样性监测网是中国生物多样性监测和研究网络的10个专项网之一,旨在以植被群系为基本单元,在草原和荒漠主要植被群系的典型地段建立植物模式群落监测样地,长期监测草原和荒漠植物多样性变化。本文从监测布局、监测样地布设、监测指标和数据产出等方面介绍了草原和荒漠植物多样性监测网的工作进展,并提出未来10年草原和荒漠植物多样性监测网的工作重点,即优化监测点的空间分布、推进自动化监测技术的应用、加强生物多样性变化研究。这些措施将有效提升草原和荒漠植物多样性监测网的研究水平和科学服务能力,为生物多样性保护和研究提供关键的数据支撑。     

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。     

取样尺度对亚高寒草甸物种多样性与生产力关系的影响

植物物种多样性与生产力之间的关系是群落生态学的一个热点问题, 目前仍存在着很多争议。为探究自然群落中二者之间的关系, 对青藏高原亚高寒草甸3个样地的自然植物群落分别进行了不同取样面积的抽样调查。结果显示, 取样样地和取样尺度均对物种丰富度有显著影响, 取样样地而非取样尺度对群落地上生物量有显著性影响。在某一时刻对某一样地进行取样, 其单位面积生产力并不因取样面积的增加而提高, 而是保持恒定的, 尽管物种数随取样面积的增加而有明显增多。物种多样性与生产力之间的回归关系因样地与取样尺度不同而不同, 有U型、单峰型、正线性相关和无相关性, 其中无相关性出现的最多。据此推测, 亚高寒草甸群落物种多样性与生产力之间不存在某种确定性关系, 或者说, 亚高寒草甸物种多样性和生产力之间不存在必然的因果联系。     

新疆阿勒泰地区草地类型及植物多样性的研究

基于33个样地、99个样方的野外调查资料,分析了新疆阿勒泰地区草地群落的植物物种多样性特征。结果表明：草地群落间的植物物种丰富度指数、均匀度指数和多样性指数差异显著,丰富度由山地草原、经山地草甸、荒漠草原、草甸化草原、平原荒漠、高寒草甸到山地荒漠依次下降,均匀度指数由山地草原,经草甸化草原、荒漠草原、平原荒漠、山地草甸、高寒草甸,到山地荒漠依次下降,多样性指数从山地草原,经草甸化草原、荒漠草原、山地草甸、平原荒漠、高寒草甸,到山地荒漠呈下降趋势。在群落多样性梯度上,物种丰富度对多样性的贡献率要比均匀度的贡献率小。草地群落的物种丰富度、均匀度和多样性指数随海拔升高均表现为先上升,后下降,峰值出现在1800～2000m的山地草原,且变化趋势一致。     

放牧强度对短花针茅荒漠草原甲虫群落分布格局的影响

放牧对脆弱的荒漠草原生态系统有着重要影响,且随放牧强度及持续时间不同而变化。鞘翅目昆虫是环境监测与生物多样性变化的指示生物。利用巴氏罐诱法对短花针茅荒漠草原不同放牧强度草地的甲虫群落组成和多样性进行调查,探究放牧对荒漠草原甲虫群落的影响。结果表明:(1)步甲科、金龟科为短花针茅荒漠草原甲虫群落优势类群,埋葬甲科、芫菁科、拟步甲科和花金龟科为常见类群。(2)放牧强度增加不利于维持更多的捕食性甲虫;对照和轻度放牧样地可维持更多的腐食性甲虫。(3)甲虫数量随放牧强度增加而递减;群落多样性以重度放牧草地最大,轻度放牧草地最小;群落优势度为对照、中度、重度显著高于轻度放牧草地。各甲虫类群在不同放牧强度草地出现时间、高峰期均不同。(4)对照、轻度、重度放牧样地的甲虫优势类群群落结构不同于其他生境,但均与中度放牧样地存在相似性。轻度、中度、重度放牧样地的甲虫稀有类群群落结构不同于其他生境,但均与对照样地存在相似性。(5)甲虫群落个体数与植物群落物种丰富度、盖度、植物平均高度、生物量呈显著正相关。Shannon-Wiener多样性指数、Margalef丰富度指数均与植物群落物种丰富度、生物量显著负相关。研究结果为荒漠草原甲虫多样性保护提供参考依据。     

呼伦贝尔草原南缘植被类型分异及生物多样性特征

以呼伦贝尔草原为对象,对其南缘从东到西200 km范围内的植物群落进行了系统调查,并采用数量生态学方法对研究区内植被类型及生物多样性进行分析。调查共发现98种植物,其中以菊科(Compositae)、豆科(Leguminosae)、禾本科(Gramineae)和百合科(Liliaceae)为主,其植物种数占全部物种数的52.58%。植物水分生态类型主要以旱生植物为主;植物生活型则以多年生草本植物为主。对呼伦贝尔草原南缘94个样地进行NMDS排序的结果表明,水热因子影响植被分布格局,其中降水是最主要因素;相似性分析和相似性百分比分析结果显示,荒漠草原群落与草甸草原群落物种组成相异性最大,群落分离明显,与典型草原群落间也形成了显著差异。典型草原与草甸草原镶嵌分布,且草甸草原呈向典型草原转变的趋势,这表明日趋加剧的干旱气候和不合理的人为活动导致所有植被类型向旱生化方向演变。3种草原类型的Rényi多样性排序结果显示,物种丰富度、Shannon多样性指数、Simpson多样性指数均为草甸草原最高,典型草原次之,荒漠草原最低,而优势度呈现与多样性相反的结果,整个研究区的生物多样性总体上呈现下降的趋势。这种从个体到群落向单一化和旱生化演变的趋势将严重影响呼伦贝尔草原的保护及开发利用。     

The assembly of plant-patch networks in Mediterranean alpine grasslands

高寒生态系统中恶劣的环境条件导致其植被结构的斑块化，即不同植物物种聚集并共同生长。然而，我们对驱动植物-斑块网络的结构和动态的重要因素仍知之甚少。本研究旨在通过研究沿山脉分布的植物-斑块网络，评估哪些环境和生物因素能够预测植物-斑块网络形成。我们调查了沿海拔500米分布的37个地中海高寒草原(位于西班牙Sierra Guadarrama国家公园)中的5500多个植被斑块的植物物种分布。我们为每个草地群落建立植物-斑块网络，分析环境因素(海拔、日照和土壤条件)和生物因素(每块草地的物种数量、平均斑块面积和总牧场面积)对其嵌套结构和模块化程度的影响。研究发现，植物-斑块网络呈现出一致的、非随机的模式(其特征是嵌套而非模块化的结构)，这表明共生的专性植物之间的正向联系促进其在斑块内的生长，这些斑块是具有更多广域性物种种群的子集。草地植物-斑块网络的嵌套结构和模块化程度各不相同。具体而言，嵌套结构随每个样地物种数的增加而减少，而随平均斑块面积的增加而增大，但其与环境变量无关；模块化程度随草地面积和每个样地物种数的增加而增强。每个样地的物种数和嵌套模式之间的负相关关系可能与在面积给定的斑块中可共存的物种数量有限有关。此外，斑块大小与嵌套结构之间的正相关关系表明，在物种丰富的植被斑块内，较大的斑块更有利于稀有植物的生长。此外，研究结果表明，植被斑块的嵌套组配可能与非生物条件无关。这些结果说明，大而完整的植被斑块是维持高寒草原植物多样性的基础。研究在精细空间尺度上的物种分布，可能为植物网络聚集的生物过程提供新思路，并为保护生物多样性提供新方法。     

塔河源荒漠河岸林群落物种组成、结构与植物区系特征

为了更好地了解荒漠河岸林植被动态与生物多样性维持机制,于塔里木河干流源头荒漠河岸林内建立6个1 hm 2样地,对群落物种组成、数量特征和空间格局等进行综合分析。结果表明,塔河源荒漠河岸林群落结构简单、物种多样性低,共有物种12科15属16种,杨柳科重要值最大(28. 97%),是群落优势建群科。取样面积在0. 04 hm 2时,包括了87. 5%的物种;样地内稀有种和偶见种均占所有物种的12. 5%。植物区系贫乏,单种科、属多,温带成分占绝对优势,古地中海成分也占有重要地位,具典型温带区系性质。样地内 DBH ≥ 1 cm 的活木本个体有2497株,灰胡杨多度占92. 95%,胸高断面积和重要值最大,在群落中占绝对优势地位。群落内科、属、种的数量随植株高度级的增加而减少,垂直结构层次分明,由乔木层、灌木层和草本层构成。样地内所有树种平均胸径15. 57 cm,径级与高度级结构均呈偏正态分布,缺乏高度≤ 2 m的个体,群落更新不良。优势种灰胡杨、胡杨径级结构均呈单峰型,其中胡杨幼树出现断层,灰胡杨幼苗向幼树发展过程中死亡率极高(92. 56%),均为衰退型种群。两个优势种空间格局呈聚集分布,不同生境下随径级增大空间分布格局变化不同;且两个优势种在空间上相互排斥而占据不同生境,暗示着种间竞争与生境异质性是影响荒漠河岸林物种空间分布格局和物种共存的重要因素。     

中国北方典型草地物种丰富度与生产力的关系

利用2002–2004年内蒙古和甘肃南部几种典型草地的实测资料,研究了不同尺度物种丰富度与生产力的关系,并初步探讨了其形成机制。结果显示,温带草地的物种丰富度随生产力的增加而增加,但受空间尺度影响。在群落尺度(同一群落),在7种样方数大于15的群落中,仅沙生针茅(Stipaglareosa)群落物种丰富度与生产力呈现单峰型关系,其余均呈现线性正相关关系;在植被类型尺度,物种丰富度–生产力之间表现为显著的正相关关系;在研究区尺度,物种丰富度随生产力的增加而显著增加。研究还表明,研究区群落生产力的变化范围为13–368g·m–2·yr–1,物种丰富度为4–35种;生产力从高到低的顺序为:高寒草甸>草甸草原>典型草原>荒漠草原。     

高寒地区煤矿排土场植被恢复研究——以内蒙古扎哈淖尔煤矿为例

高寒煤矿排土场植被恢复是制约我国矿区绿色可持续发展亟待解决问题,内蒙古扎哈淖尔煤矿通过不同的生态措施对排土场进行人工植被恢复的实践。在2020年和2021年对该高寒煤矿排土场75个样地进行野外连续监测,对不同生态恢复措施影响高寒地区内蒙古扎哈淖尔露天煤矿排土场植物恢复过程中的群落组成、盖度、物种多样性进行分析,阐明不同恢复措施在高寒地区煤矿排土场植被恢复中的作用。研究结果表明：从2020年到2021年排土场的植物群落物种数、植被盖度和群落多样性存在显著的季节变化规律;周边原生草原的非人工种植植物随恢复时间增加而不断进入排土场,导致群落物种数显著增加;植物群落多样性在平面、坡面与田字格地形存在显著差异,田字格上Shannon-Wiener多样性指数最低;坡度显著影响群落多样性,同时受到季节变化影响;喷播加灌木种植方式与其他4种播种方式相比显著增加群落香浓维纳多样性指数;但不同坡向、土壤施肥方式和水分灌溉方式对植物群落多样性没有显著影响。研究结果可为完善草原露天煤矿植被恢复技术提供科学依据。     

Scale dependence in desert plant diversity

The relationship between the number of species and the area sampled is one of the oldest and best-documented patterns in community ecology. An equation of the form S = cA ^z describing more precisely the species–area relation for plant species in smaller area is proposed as a result of intensive examination of species presence. Several study and field data from a wild range of plant and animal taxa suggest that the slope, z, of a graph of the logarithm of species richness against the logarithm of area is not a constant to the grassland or woodland community. We collected replicated and randomized plant data at 6 spatial scales from 1 m² to 1 km² in the desert region of northwest China to identify the scale dependence in desert plant biodiversity. The results showed that the slope of the log–log plot varied systematically with spatial scale. The value of z was high (0.37) at small scales from 1 to 10 m² and it decreased with increased spatial scale subsequently. When spatial scales varied from 1 m² to 1 km², the value of z varied from 0.37 to 0.035, suggesting that desert plant diversity has strongly scale-dependence at the small scales (less than 100 m²). The result is different from the research of grassland and woodland communities.     

Effects of selective logging on tree species diversity and composition of Bornean tropical rain forests at different spatial scales

Reduced-impact logging (RIL) is known to be beneficial in biodiversity conservation, but its effects on tree diversity remain unknown. Pattern of tree diversity following disturbance usually varies with spatial scale of sampling (i.e., plot size). We examined the impacts of RIL on species richness and community composition of tree species at different spatial scales, and the scale (plot size) dependency of the two metrics; species richness versus community similarity. One 2-ha and three to four 0.2-ha plots were established in each of primary, RIL, and conventionally logged (CL) forest in Sabah, Malaysia. Species richness (the number of species per unit number of stems) was higher in the RIL than in the CL forest at both scales. The relationship between species richness and logging intensity varied with plot size. Species richness was greater in the RIL than in the primary forest at the 2-ha scale, while it was similar between the two forests at 0.2-ha scale. Similarly, species richness in the CL forest demonstrated a greater value at the 2-ha scale than at the 0.2-ha scale. Greater species richness in the two logged forests at the 2-ha scale is attributable to a greater probability of encountering the species-rich, small patches that are distributed heterogeneously. Community composition of the RIL forest more resembled that of the primary forest than that of the CL forest, regardless of plot size. Accordingly, species richness is a scale-dependent metric, while community similarity is a more robust metric to indicate the response of tree assemblage to anthropogenic disturbance.     

Scaling coexistence and assemblage patterns of desert small mammals

Scaling biodiversity patterns has been recognized lately as a very important issue in the search of global processes; however coexistence and assemblage patterns are typically approached at a single spatial scale. Here, we examined coexistence and co-occurrence patterns of desert small mammal communities across different spatial scales in the search of general community patterns. We sampled small mammals in Monte desert (Argentina, South America) for small spatial scales and reviewed published papers from other worldwide deserts for large spatial scale analyses. We used classic community estimators (Shannon, Richness), rank abundance curves and fitting distributions to analyze species coexistence and co-occurrence patterns. Assemblage patterns were analyzed evaluating nestedness across spatial scales and among deserts. Worldwide desert small mammal assemblages are characterized mainly by low species richness and high variation in species composition. The central Monte desert of Argentina showed a consistent assemblage pattern across spatial scales, with a generalist species being the most abundant and widely distributed, accompanied by other subordinate and more narrowly distributed species. All Monte desert communities were significantly nested, with nestedness increasing with scale from patch to regional. Assemblage and coexistence patterns were similar when comparing worldwide deserts despite differences in total richness and faunal singularity. The degree of nestedness varied among worldwide deserts; however all of them showed a consistent nested pattern. Differences in the degree of nestedness could be a result of different regulating factors depending on the desert and scale. These results highlight the importance of including multiscale approaches when dealing with processes that structure desert communities.     

Small-scale patterns of species richness in Swedish semi-natural grasslands: the effects of community species pools

Temperate semi-natural grasslands are known for their high plant species richness at small spatial scales. We examined the variation in small-scale species richness in a sample of 63 sites from Swedish semi-natural grasslands, located as fragments in the modem landscape dominated by forest and agricultural land. Data were obtained from two spatial scales at each site. 1 dm² and 4 m². Using an analysis based on a Monte Carlo simulation, we found support for the species-pool hypothesis: a high species richness at the I dm- scale was associated with high species richness at the 4 m2 scale. The conclusion from this pattern analysis would, however, be considerably strengthened if we could reduce the likelihood that other mechanisms than sampling from species pools of unequal size influence the pattern of small-scale species richness. Additional analyses were made in order to identify such mechanisms. We examined whether four putative key traits: seed size, seed production, plant size and reproductive allocation were different among species at comparatively species-rich vs species-poor I dm' plots. We found only a little evidence for such differences. There was a weak tendency that species in the plots with high species richness possessed larger (and fewer) seeds than species from species-poor plots. Our results are congruent with the main prediction of the species pool model: variation in small-scale species richness (1 dm²- scale) is basically a result of sampling from unequally sized community species pools (4 m² scale). Variation in species richness between the 4 nr semi-natural grassland "patches" may thus be sought for among mechanisms operating al larger spatial scales than 4 m². We briefly discuss such mechanisms, based on other studies performed in the same study area.     

Disturbance effects on plant community diversity: spatial scales and dominance hierarchies

It is proposed that evaluations of disturbance effects upon community diversity will be influenced by two factors currently overlooked in models addressing disturbance-diversity relationships: (1) the spatial scale of inquiry, and (2) the level of the species abundance (dominance) hierarchy at which the search for diversity is done. We analyzed how two disturbance types—cattle grazing and large flooding—affected community diversity at two spatial scales (stand and patch) and three levels of species dominance in a grassland of the Flooding Pampa, Argentina. The effect of disturbance interaction was also examined. Species diversity at the stand scale was reduced by either grazing or flooding. Both disturbances decreased community spatial heterogeneity. At the patch scale, diversity declined with flooding but was enhanced by grazing. Flooding increased diversity under grazing conditions. However, stand diversity was highest in the undisturbed grassland; pattern diversity was the salient feature in this condition. The combination of disturbances yielded the highest patch-scale diversity; grazing increased richness whilst flooding enhanced evenness. Comparisons among grassland conditions appeared scale-dependent. Moreover the extent of disturbance effects varied with the level of dominance hierarchy considered. We point out the relevance of site history and initial conditions, encompassing the possibility of disturbances interaction, to the patters produced by disturbance events. Effects perceived at different spatial scales, or in species positioned at separate dominance levels, may parallel meaningful changes in the relative importance of factors controlling species coexistence and community organization.     

Scale dependency of two endangered charismatic species as biodiversity surrogates

Charismatic megafauna have been used as icons and financial drivers of conservation efforts worldwide given that they are useful surrogates for biodiversity in general. However, tests of this premise have been constrained by data limitations, especially at large scales. Here we overcome this problem by combining large-scale citizen-sourced data with intensive expert observations of two endangered charismatic species, Blakiston’s fish owl (forest specialist) and the red-crowned crane (wetland specialist). We constructed large-scale maps of species richness for 52 forest and 23 grassland/wetland bird species using hierarchical community modeling and citizen-sourced data at 1, 2, 5, and 10-km grid resolutions. We compared the species richness of forest and grassland/wetland birds between the breeding and non-breeding sites of the two charismatic birds at each of the four spatial resolutions, and then assessed the scale dependency of the biodiversity surrogates. Regardless of the habitat amounts, owl and crane breeding sites had higher forest and grassland/wetland bird species richness, respectively. However, this surrogacy was more effective at finer scales (1–2-km resolutions), which corresponds to the charismatic species’ home range sizes (up to 9.4 ± 2.0 km² for fish owls, and 3–4 km² for cranes). Species richness showed the highest spatial variations at 1–2-km resolutions. We suggest that the agreement of functional scales between surrogate species and broader biodiversity is essential for successful surrogacy, and that habitat conservation and restoration targeting multiple charismatic species with different specialties can complement to biodiversity conservation.     

Small‐scale spatial dynamics of vegetation in a grazed Uruguayan grassland

We explored the small‐scale plant species mobility in a subhumid native grassland subjected to grazing by cattle in south‐western Uruguay. We established four permanent plots of 40 × 40 cm, divided in 16 × 16 cells. In each cell, the presence of species was seasonally recorded for 2 years and annually recorded for 4 years. By nesting the cells, we studied the mobility at different scales, from 6.25 cm² to 400 cm². At each scale we measured species richness, cumulative richness and the turnover rates of the dominant species. We found that the cumulative species richness was an increasing power function, with higher accumulation rates with smaller spatial scale. Although species richness showed seasonal fluctuations, the mean species richness was constant during the study period. We detected significant spatio‐temporal variability in mobility patterns among species. Certain species showed a high capacity to colonize new sites, whereas other species rotate among sites that they previously occupied. Grazed communities in Uruguayan Campos are structured as a dense matrix of perennials grasses and forbs, where vegetative propagation is the main form of growth of the species. The small‐scale dynamics and the high variability in the mobility characteristics could be linked with the diversity of growth forms and spatial strategies of the species in this community. We believe that a high degree of small‐scale spatial dynamics contribute to explain the species coexistence and the apparent stability of communities at local scales.     

塔里木荒漠河岸林异质生境物种多样性比较与其测度指标筛选及评价

选择合适的物种多样性测度指标与多样性指数是进行群落多样性研究的基础工作。依据塔里木河上游荒漠河岸林样地调查资料,分别采用重要值、盖度和多度为测度指标比较了反映群落物种丰富度、多样性、均匀度和优势度12种多样性指数与异质生境群落多样性特征,并对多样性指数进行了相关分析与评价。结果表明,荒漠河岸林异质生境群落物种组成种类差异明显,轮南镇胡杨群落物种丰富度与多样性指数最高,水工三连灰胡杨群落多样性最低,土壤水盐的空间异质性是引起荒漠植被空间分布与群落多样性差异的主导因子。表征荒漠群落多样性以重要值和盖度为测度指标优于多度指标,其中以重要值为测度指标来反映群落多样性更为合理。相关与主成分分析表明,均匀度与多样性指数间的相关性高于丰富度与多样性指数,且多样性指数受均匀度、优势度指数受丰富度影响较大,反映出荒漠河岸林群落多样性主要决定于物种分布的均匀程度。12种多样性指数中Margalef丰富度指数（Ma）、Shannon-Weiner多样性指数（H）与Simpson多样性指数（D）能客观真实地反映异质生境荒漠植物群落多样性。同时,针对高度生境异质性的荒漠植物群落,还应综合考虑群落物种组成与生境特征,选择合适的多样性指数组合可更客观地反映荒漠河岸林群落多样性变化。     

Functional diversity of phyllostomid bats in an urban–rural landscape: A scale-dependent analysis

Urbanization is one of the most pervasive processes of landscape transformation, responsible for novel selection agents promoting functional community homogenization. Bats may persist in those environments, but the mechanisms responsible for their adaptability and the spatial scales in which the landscape imposes environmental filtering remain poorly studied in the Neotropics. We tested the hypothesis that landscape composition interacts with the spatial scale to affect the functional diversity of phyllostomids in an urban–rural gradient. Based on functional traits, we calculated indices of functional richness, divergence, evenness, and community-weighted means of morphological traits, and classified species into functional groups. We evaluated the changes in those variables in response to forest, grassland, and urbanized areas at 0.5, 1.25, and 2km scales. The number of functional groups, functional richness, and functional evenness tended to be higher in areas far from cities and with higher forest cover, whereas functional divergence increased in more urbanized areas. Our results show that the mean value of wing loading in the assemblage was negatively associated with landscape transformation at several spatial scales. However, environmental filtering driven by grass cover was particularly robust at the 0.5km scale, affecting big-sized species with long-pointed wings. Retaining natural forest in cattle ranging systems at ~12 km² appears to favor the functional evenness and number of functional groups of phyllostomids. Recognizing the scale of the effect on phyllostomid functional responses appears to be a fundamental issue for elucidating the spatial extent to which phyllostomid conservation planning in urban–rural landscapes should be addressed.     

An examination of scale of assessment,logging and ENSO-induced fires on butterfly diversity in Borneo

The impact of disturbance on species diversity may be related to the spatial scales over which it occurs. Here I assess the impact of logging and ENSO (El Niño Southern Oscillation) -induced burning and forest isolation on the species richness (477 species out of more than 28,000 individuals) and community composition of butterflies and butterfly guilds using small (0.9 ha) plots nested within large (450 ha) landscapes. The landscapes were located in three habitat classes: (1) continuous, unburned forest; (2) unburned isolates surrounded by burned forest; and (3) burned forest. Plots with different logging histories were sampled within the two unburned habitat classes, allowing for independent assessment of the two disturbance factors (logging and burning). Disturbance within habitat classes (logging) had a very different impact on butterfly diversity than disturbance among habitat classes (due to ENSO-induced burning and isolation). Logging increased species richness, increased evenness, and lowered dominance. Among guilds based on larval food plants, the species richness of tree and herb specialists was higher in logged areas but their abundance was lower. Both generalist species richness and abundance was higher in logged areas. Among habitat classes, species richness was lower in burned forest and isolates than continuous forest but there was no overall difference in evenness or dominance. Among guilds, generalist species richness was significantly lower in burned forest and isolates than continuous forest. Generalist abundance was also very low in the isolates. There was no difference among disturbance classes in herb specialist species richness but abundance was significantly higher in the isolates and burned forest than in continuous forest. Tree specialist species richness was lower in burned forest than continuous forest but did not differ between continuous forest and isolates.The scale of assessment proved important in estimating the impact of disturbance on species richness. Within disturbance classes, the difference in species richness between primary and logged forest was more pronounced at the smaller spatial scale. Among disturbance classes, the difference in species richness between continuous forest and isolates or burned forest was more pronounced at the larger spatial scale. The lower levels of species richness in ENSO-affected areas and at the larger (landscape) spatial scale indicate that future severe ENSO events may prove one of the most serious threats to extant biodiversity.