高原鼠兔有效洞穴密度对青藏高原高寒草甸群落植物生态位的影响

高原鼠兔(Ochotona curzoniae)有效洞穴密度扩增会引起高寒草甸植物群落组分的变化。采用野外调查方法研究了高原鼠兔有效洞穴密度对青藏高原高寒草甸群落植物生态位的影响。结果表明:随高原鼠兔有效洞穴密度增加,样方内植物种数逐渐增多,但主要是毒杂草,有效洞穴密度超过15个/625m2时豆科植物出现。优势种高山嵩草(Kobresia pygmaea)的重要值随有效洞穴密度增加呈单峰曲线,峰值出现在15个/625m2。有效洞穴密度低于或等于21个/625m2时,优势种高山嵩草生态位宽度位居第一,但有效洞穴密度达31个/625m2时,其生态位宽度降至并列第三,低于小米草(Euphrasia pectinata)和钝裂银莲花(Anemone obtusiloba),等同于小花草玉梅(Anemone rivularis)和乳浆大戟(Euphorbia esula)。有效洞穴密度分别为10个/625m2,15个/625m2,21个/625m2,31个/625m2时,与高山嵩草生态位重叠度最大的物种分别为莓叶委陵菜(Potentilla fragarioides)、圆叶筋骨草(Ajuga ovalifolia)、乳浆大戟、条叶垂头菊(Cremanthodium lineare)。有效洞穴密度为10个/625m2时,高山嵩草是群落内种群间竞争最激烈的一方,但有效洞穴密度超过或等于15个/625m2时,高山嵩草则退出了种群间竞争最激烈的双方。说明高原鼠兔有效密度增加严重影响了高寒草甸群落组分、重要值、生态位宽度和生态位重叠值。     

高原鼠兔有效洞穴密度对高寒草甸优势植物叶片和土壤氮磷化学计量特征的影响

采用有效洞穴密度代替高原鼠兔(Ochotona curzoniae)活动强度的方法,研究了高原鼠兔有效洞穴密度(10、15、21和31个/625 m~2)对高寒草甸优势植物高山嵩草(Kobresiapygmaea)、垂穗披碱草(Elymus nutans)、小花草玉梅(Anemone rivularis)叶片和土壤氮(N)磷(P)化学计量特征的影响。结果表明,3种优势植物叶片N含量随有效洞穴密度增加而显著增加(P0.05),但叶片P含量却出现分异,表现为高山嵩草和垂穗披碱草叶片P含量随有效洞穴密度增加而先增加后降低(P0.05),小花草玉梅叶片P含量逐渐增加(P0.05);高山嵩草叶片N:P随有效洞穴密度增加先降低后增加(P0.05),垂穗披碱草叶片N:P逐渐增加,小花草玉梅叶片N:P则先增加后降低。土壤0-10 cm和10-20 cm土层N含量随有效洞穴密度增加无明显变化;0—10cm土层P含量随有效洞穴密度增加先降低后增加,10—20 cm土层P含量逐渐降低;0—10 cm土层N:P随有效洞穴密度增加元明显变化,而10-20 cm土层N:P则逐渐增加。优势植物叶片N、P、N:P与土壤N、P、N:P的相关性受植物根系分布特征和生存微环境的约束。     

高原鼠兔种群恢复过程中的洞穴分布动态

高原鼠兔洞穴系统的恢复是其种群恢复的关键指标之一,洞穴分布的变化可以反映种群的动态。本研究于2014-2016年在青海省祁连县对2.79 hm2高寒草甸内高原鼠兔(Ochotona curzoniae)种群密度、洞穴密度和洞穴的相对位置进行跟踪观测。其中包括6个50m×50m 的灭鼠堵洞处理、6个30m×30m 的灭鼠处理和3个50m×50m的对照处理。分别采用平均最近邻指数和平均拥挤度指数分析洞穴系统中有效洞、弃洞、粪坑和嬉戏坑的分布模式及洞系表现面积,并对各参数进行描述性和相关性分析。结果显示：高原鼠兔种群密度恢复过程中（1）有效洞的空间格局由随机向离散分布转变,弃洞由随机向聚集分布转变,粪坑和嬉戏坑无明显变化趋势;有效洞和弃洞分布格局的恢复都朝向灭鼠前状态,但恢复的都不充分;（2）有效洞最近邻指数与其自身密度正相关;弃洞最邻近指数与其自身密度负相关;粪坑、嬉戏坑最近邻指数与其自身密度无显著相关性;其中,仅粪坑的分布最近邻指数与高原鼠兔种群密度呈显著负相关;（3）有效洞与粪坑、嬉戏坑表现面积的变化情况较为一致,与弃洞呈互补态势;洞系表现面积的变异性远小于洞穴密度。结果说明：（1）高原鼠兔洞穴分布格局和洞穴密度的恢复具有滞后性;（2）有效洞、弃洞的分布格局主要受洞穴密度的影响;（3）高原鼠兔种群的恢复过程中对洞系面积的需求优先于洞口数量。     

高原鼠兔干扰对高寒草甸植物多样性与土壤养分间关系的影响

高原鼠兔干扰虽然能够改变高寒草甸植物多样性与土壤养分含量,但植物多样性与土壤养分间的关系对高原鼠兔干扰的响应尚不清晰。利用高原鼠兔有效洞口密度将高原鼠兔干扰程度划分为T_1(7个/625 m~2)、T_2(12个/625 m~2)、T_3(22个/625m~2)、T_4(38个/625 m~2)4个水平,运用RDA冗余分析法研究了高原鼠兔不同干扰程度下高寒草甸植物多样性与土壤养分间的关系。结果表明:随着高原鼠兔干扰水平的增加,优势种高山嵩草(Kobresia pygmaea)的重要值先增加后降低,而伴生种小花草玉梅(Anemone rivularis var.flore-minors)和莓叶委陵菜(Potentilla fragarioides)的重要值先降低后增加;当高原鼠兔干扰水平从T_1到T_2时植物多样性指数变化不显著,而高原鼠兔干扰程度超过T_2时则植物多样性指数具有降低趋势;土壤全氮和硝态氮含量随高原鼠兔干扰水平增加而降低,而土壤铵态氮含量则降低后增加,土壤有机碳和全磷先增加后降低;多样性指数与0—10cm土壤深度硝态氮、10—20cm土壤深度全钾间的相关性从T_1到T_3时为正相关,而到T_4时则变为负相关,而与0—10cm土壤深度全氮的相关性则表现T_1到T_3时为负相关,T_4时为正相关,与铵态氮间相关性只有T_1时为负相关,这说明高原鼠兔干扰改变了植物多样性与土壤养分间的关系,其变化阈值介于T_2和T_3。     

高原鼠兔对高寒草甸植物群落生物量的影响

2010 年和2011 年8 月在青海省果洛州矮嵩草草甸,采用样方法测定了不同密度高原鼠兔栖息地内杂草斑和秃斑植物群落特征及地上生物量的变化。结果表明:2010 年与2011 年相比,相同高原鼠兔密度的栖息地内杂草斑和秃斑植物总盖度、平均高度和总地上生物量差异不显著,但同一年份不同密度栖息地间差异显著。高原鼠兔低、中、高密度栖息地植物总盖度、平均高度和总地上生物量显著低于无鼠兔对照组(P < 0.05),不同密度间无明显变化规律。低、中、高密度栖息地的莎草、禾草和豆科植物盖度、平均高度和地上生物量显著低于无鼠兔对照组(P <0.05),秃斑上豆科植物消失;杂类草平均高度在低密度栖息地和无鼠兔对照组显著高于中、高密度栖息地(P < 0. 05),盖度和地上生物量对照组最小,随高原鼠兔密度增加呈增加趋势。2010 年和2011 年,高原鼠兔低、中、高密度栖息地内杂草斑面积分别占样地面积的4. 0% 、4.3% 、13. 3% 和3.8% 、4. 3% 、11. 0% ,秃斑面积分别占样地面积的0 2% 、2 6% 、4 0% 和0 2% 、2 2% 、3 4% ;植物损失地上生物量分别为110.84 kg/ hm² 、203. 18 kg/ hm² 、431.58 kg / hm² 和107.67 kg / hm² 、189. 46 kg / hm² 、365. 72 kg/ hm² 。高原鼠兔
的密度(x)与植物损失地上生物量(y)之间存在对数曲线关系,说明高原鼠兔的活动显著降低了植物总盖度、平均高度和总地上生物量,同时也改变了植物功能群组成。随高原鼠兔密度增加,栖息地内杂草斑、秃斑的面积和植物损失地上生物量呈增加趋势。     

不同放牧模式下高原鼠兔洞口的空间分布格局变化

2019年4-11月,在四川省若尔盖县选取全年禁牧、冬季放牧、全年放牧3种放牧模式样地,对高原鼠兔（Ochotona curzoniae）洞口的数量、空间分布格局变化及影响因子进行了研究。计算平均最近邻指数和S²/m比值来分析样方（10 m×10 m）和样地水平下的空间分布格局,通过非参数检验评估空间分布格局在不同放牧模式间和月份间的差异显著性。结果显示：（1）高原鼠兔的洞口总数和有效洞口数在不同放牧模式间均存在显著差异,以冬季放牧模式的洞口数量最多;冬季放牧和全年禁牧模式的洞口数量在月份间有显著变化;（2）无论样方和样地水平,洞口空间分布格局在不同放牧模式间都存在显著差异;在同一放牧模式下,所有洞口和有效洞口的分布型存在差异;（3）植被高度和盖度与高原鼠兔的洞口数量和洞口分布格局相关;（4）洞口数量与平均最近邻指数有显著正相关关系。研究结果说明：不同放牧模式会影响高原鼠兔的空间利用模式及种群动态;高原鼠兔洞口数量及分布型受到植被高度和盖度的影响。     

高原鼠兔干扰对高寒草甸β多样性的影响

β多样性反映生物群落沿某一环境梯度的物种周转速率, 该研究尝试采用β多样性揭示植物群落随小型啮齿草食动物干扰梯度变化的生态过程。该研究利用野外随机样地的采集数据, 分析了高原鼠兔(Ochotona curzoniae)不同干扰强度下Whittaker指数的变化特征, 并利用群落二元丰富度的方差分解法, 确定了单个物种(SCBD)和单个干扰位点(LCBD)对β多样性的贡献。主要结果: 随高原鼠兔干扰强度增加, 植物群落内物种周转速率呈先增加后降低的趋势; 占据位点数居中的物种对区域内的β多样性贡献较大, 其中冰草(Agropyron cristatum)、臭蒿(Artemisia hedinii)、小花草玉梅(Anemone rivularis var. flore-minore)等单个物种对整个区域内β多样性的贡献最为突出; 整个区域内干扰位点T₀ (高原鼠兔干扰强度为0)对区域β多样性贡献值最大, LCBD值和该位点的群落丰富度呈显著负相关关系, 但与高原鼠兔干扰强度无显著关联。说明重点保护LCBD值高的干扰位点所在的高寒草甸, 以及SCBD值较高的冰草、臭蒿、小花草玉梅, 对保护高原鼠兔存在时高寒草甸植物群落多样性具有重要意义。     

青藏高原高寒草甸生态系统高原鼠兔种群调查及其防控阈值研究（英文）

认识高原鼠兔Ochotona curzoniae在草地退化中的角色和地位,对于加强高寒草甸生态系统高原鼠兔种群管理具有重要的意义。以高原鼠兔有效洞穴密度为调查对象,根据所调查的12个样地遴选出4个不同鼠洞等级的研究样地去评估鼠兔数量和植物生物量变化之间的关系。主要结论如下:高原鼠兔活动并非引起草地退化的原因,而是作为草地退化的标志性信号,然而高频度的鼠兔活动会加剧草地逆向演替的进程。因此,一些综合措施诸如减少牲畜数量、动态的轮牧、草地恢复管理技术、社区参与式管理等可以有效提高草地生产力和防止鼠害爆发。对各类型退化草地进行综合治理时,应加强对害鼠种群动态的监测,当种群密度超过经济阈值或达到高密度种群时,应急性、常规性灭鼠工作才可以实施,为重度型退化草地重建、植被恢复和土壤发育提供可能性。     

不同海拔矮嵩草与火绒草种群分布格局及空间关联性

研究植物种群的分布格局及空间关联性是揭示植物种群与环境间关系、自身特性以及种间相互作用的一种重要手段。本研究以甘南高寒草甸为对象,沿海拔梯度(2900、3500、3800 m)设置3个样地,采用Ripley K函数对不同海拔矮嵩草(Kobresia humilis)与火绒草(Leontopodium nanum)种群的空间分布格局及种间关联性进行了分析。结果表明:(1)随着海拔的上升,矮嵩草种群的重要值、盖度、株数等呈递增趋势,火绒草种群的重要值、盖度、株数等则呈递减趋势。(2)矮嵩草种群在不同海拔的研究尺度内均表现为聚集分布,但其聚集的程度有所不同;火绒草种群在海拔2900 m处呈聚集分布状态;海拔3500 m处,火绒草种群在0～2.8 m尺度上呈聚集分布,但其聚集强度随着研究尺度的增加而逐渐减弱,最终转变为随机分布; 3800 m处,火绒草种群在0～2 m尺度内呈聚集分布,在较大尺度(2～5 m)上呈随机分布。(3)海拔2900 m处,矮嵩草与火绒草种群在小尺度(0～1.1 m)内表现为正相关,较大尺度上表现为无相关;海拔3500 m处,在整个研究尺度内表现为负相关;海拔3800 m处,在小尺度范围(0～1.4 m)内表现为无相关,较大尺度上表现为负相关,且随研究尺度的增大,其关联性增强。     

青藏高原火绒草斑块群落空间格局分析

以青藏高原两种生境(阴坡和阶地)和4个斑块大小等级水平(等级1:0.2—0.6m2,G1;等级2:0.6—2 m2,G2;等级3:2—3.6 m2,G3和等级4:3.6—8.6 m2,G4)的火绒草(Leontopodium nanum)群落为对象,利用幂乘方法则,分析了其种群和群落空间异质性和群落物种多样性特征,明晰了优势种、亚优势种、伴生种和偶见种对其植被分布格局的影响。结果表明:各火绒草斑块的群落空间分布格局均呈集群分布,植物种的随机出现频率和实际出现频率的方差对数值与其幂乘方法吻合性较高(R2﹥0.8),幂乘方法能对火绒草斑块植被空间分布格局进行客观分析。优势种火绒草和线叶嵩草(Kobresia capillifolia),亚优势种球花蒿(Artemisia smithii)和珠芽蓼(Polygonum viviparum)等的相对空间异质性(ε)高于群落的空间异质性(δC),位于直线y=0上方,使群落趋于集群分布;伴生种西北针茅(Stipa krylovii)、瑞香狼毒(Stellera chamaejasme)和苔草(Carex sp)等的ε与群落的δC类似,位于直线y=0附近,它们维持群落自身空间分布状态;偶见种的ε低于群落的δC,位于直线y=0下方,降低群落的集群分布。随火绒草斑块等级水平的增加,群落物种数呈增加,丰富度指数DGI呈降低变化。一般火绒草斑块的δc和βw为阶地﹥阴坡,DGI为阶地﹤阴坡;两种生境下,植物种组成的相似性G1斑块较低,G2—G4斑块较高。火绒草斑块的群落分布格局主要由优势种和亚优势种及偶见种的ε决定。     

Response of alpine meadow communities to burrow density changes of plateau pika (Ochotona curzoniae) in the Qinghai-Tibet Plateau

Plateau pika (Ochotona curzoniae) is a key component of alpine meadow ecosystem in the Qinghai- Tibetan Plateau, and the increase of its number leads plant components of alpine meadow ecosystem to adaptively response. A field survey was carried out to determine the response of alpine meadow community to population densities of plateau pika by using available burrow density to replace the population density of plateau pika. This study showed that the height of alpine meadow communities gradually increased, and the cover of alpine meadow communities firstly decreased, and then increased as the available burrow density increased. With the increase of available burrow density, the richness index of alpine meadow communities firstly decreased and then increased, and the evenness index of alpine meadow communities firstly increased and then decreased, however, the diversity index of alpine meadow communities firstly increased, and then decreased, finally increased. In the increasing process of available burrow density, the total plant biomass and the unpalatable plant biomass firstly decreased and then increased, and the palatable plant biomass firstly increased and then decreased, indicating that the palatable plant biomass was the highest and the unpalatable plant biomass was the lowest at 14 available burrow per 625 m². In the economic groups of plant biomass, the weed biomass was the highest and the legume biomass was the lowest at any available burrow densities, and the grass biomass and the sedge biomass were related to available burrow densities, indicating that the sedge biomass were bigger than the grass biomass at 3 available burrow per 625 m², inverse at 54 available burrow per 625 m², similar between 3 and 34 available burrow per 625 m². Accompanying by the increase of available burrow densities, the legume biomass and the sedge biomass significantly decreased (P < 0.05) and the legume became disappearance at 54 available burrow per 625 m²; the grass biomass firstly increased and then decreased, peaking at 14 available burrow per 625 m². The weed biomass firstly decreased and then increased, and was the lowest at 14 available burrow per 625 m². This study suggested that the responses of alpine meadow communities to population density of plateau pika at 14 available burrows per 625 m² were more sensitive than that at other available burrow per 625 m² from plant species diversity, biomass, height, cover and economic group.     

Effect of available burrow densities of plateau pika (Ochotona curzoniae) on soil physicochemical property of the bare land and vegetation land in the Qinghai-Tibetan Plateau

The available burrow densities of plateau pika (Ochotona curzoniae) regulate the soil physicochemical property in alpine meadow. A field survey was conducted to investigate the effect of available burrow densities of plateau pika on soil physicochemical property of bare land (bare patch produced by burrowing behavior of plateau pika) and vegetation land (land covered with vegetation). This study indicated that the increase in available burrow of plateau pika caused the soil water content at 0–10 cm layer of bare land and that at 10–20 cm of vegetation land to reduce, and caused the soil water content at 10– 20 cm layer of bare land and that at 0–10 cm layer of vegetation land to firstly increase and then decline. In the increasing process of available burrow of plateau pika, the soil silt content firstly increased and then decreased, and soil sand content firstly decreased and then increased. With the increase of available burrow of plateau pika, the soil porosity at 0–10 cm layer of bare land and that at 10–20 cm layer of vegetation land decreased, while the soil porosity at 10–20 cm layer of bare land and that at 0–10 cm of vegetation land firstly increased and then decreased. Soil pH value, soil organic matter, total nitrogen and total phosphorus content firstly increased and then decreased, peaking at 14 available burrows per 625 m², while total soil potassium content did not respond to available burrow densities of plateau pika. This study suggested that the proper available burrows existing in the alpine meadow increased soil permeability, accelerated soil moisture to penetrate deeply, increased the proportion of soil silt, and improved the soil nutrient; however, this beneficial effect was strongly influenced by the available burrow density of plateau pika, implying that plateau pika did not benefit soil structure when its available burrow was over 34 number/625 m².     

Effects of plateau pika (Ochotona curzoniae) on net ecosystem carbon exchange of grassland in the Three Rivers Headwaters region, Qinghai-Tibet, China

Background and aim

Because the indigenous burrowing lagomorph plateau pika (Ochotona curzoniae) is considered to have negative ecological impacts on alpine meadow steppe grasslands of the Headwaters Region of the Yellow, Yangtze and Mekong Rivers we investigated its effects on ecosystem productivity and soil properties, and especially net ecosystem carbon flux.

Methods

We measured net ecosystem CO₂ exchange (NEE) and its components gross ecosystem productivity (GEP) and ecosystem respiration (ER) at peak aboveground biomass by the chamber method with reference to plant and soil characteristics of areas of alpine meadow steppe with different densities of pika burrows.

Results

Higher burrow density decreased NEE, GEP and ER. Above-ground biomass, species number, plant cover and leaf area index decreased with increasing pika density. Higher burrow density was associated with lower soil moisture and higher soil temperature. Responses of NEE were related to changes of abiotic and biotic factors affecting its two components. NEE was positively related to soil moisture, soil ammonium nitrogen, plant cover, leaf area index and above-ground biomass but was negatively correlated with higher soil nitrate nitrogen.

Conclusion

Decrease of NEE by plateau pika may reduce the carbon sink balance of Qinghai-Tibet plateau grassland. Such effects may be influenced by grazing pressure from domestic livestock, population levels of natural predators, and climate change.     

Changes in plant biomass and species composition of alpine <Emphasis Type="Italic">Kobresia</Emphasis> meadows along altitudinal gradient on the Qinghai-Tibetan Plateau

Alpine Kobresia meadows are major vegetation types on the Qinghai-Tibetan Plateau. There is growing concern over their relationships among biodiversity, productivity and environments. Despite the importance of species composition, species richness, the type of different growth forms, and plant biomass structure for Kobresia meadow ecosystems, few studies have been focused on the relationship between biomass and environmental gradient in the Kobresia meadow plant communities, particularly in relation to soil moisture and edaphic gradients. We measured the plant species composition, herbaceous litter, aboveground and belowground biomass in three Kobresia meadow plant communities in Haibei Alpine Meadow Ecosystem Research Station from 2001 to 2004. Community differences in plant species composition were reflected in biomass distribution. The total biomass showed a decrease from 13196.96±719.69 g/m2 in the sedge-dominated K. tibetica swamp to 2869.58±147.52 g/m2 in the forb and sedge dominated K. pygmaea meadow, and to 2153.08±141.95 g/m2 in the forbs and grasses dominated K. humilis along with the increase of altitude. The vertical distribution of belowground biomass is distinct in the three meadow communities, and the belowground biomass at the depth of 0-10 cm in K. tibetica swamp meadow was significantly higher than that in K. humilis and K. pygmaea meadows (P＜0.01). The herbaceous litter in K. tibetica swamp was significantly higher than those in K. pygnaeca and K. humilis meadows. The effects of plant litter are enhanced when ground water and soil moisture levels are raised. The relative importance of litter and vegetation may vary with soil water availability. In the K. tibetica swamp, total biomass was negatively correlated to species richness (P＜0.05); aboveground biomass was positively correlated to soil organic matter, soil moisture, and plant cover (P＜0.05); belowground biomass was positively correlated with soil moisture (P＜0.05). However, in the K. pygnaeca and K. humilis meadow communities, aboveground biomass was positively correlated to soil organic matter and soil total nitrogen (P＜0.05). This suggests that the distribution of biomass coincided with soil moisture and edaphic gradient in alpine meadows.     

Changes in plant biomass and species composition of alpine Kobresia meadows along altitudinal gradient on the Qinghai-Tibetan Plateau

Alpine Kobresia meadows are major vegetation types on the Qinghai-Tibetan Plateau. There is growing concern over their relationships among biodiversity, productivity and environments. Despite the im-portance of species composition, species richness, the type of different growth forms, and plant bio-mass structure for Kobresia meadow ecosystems, few studies have been focused on the relationship between biomass and environmental gradient in the Kobresia meadow plant communities, particularly in relation to soil moisture and edaphic gradients. We measured the plant species composition, her-baceous litter, aboveground and belowground biomass in three Kobresia meadow plant communities in Haibei Alpine Meadow Ecosystem Research Station from 2001 to 2004. Community differences in plant species composition were reflected in biomass distribution. The total biomass showed a de-crease from 13196.96±719.69 g/m2 in the sedge-dominated K. tibetica swamp to 2869.58±147.52 g/m2 in the forb and sedge dominated K. pygmaea meadow, and to 2153.08±141.95 g/m2 in the forbs and grasses dominated K. humilis along with the increase of altitude. The vertical distribution of below-ground biomass is distinct in the three meadow communities, and the belowground biomass at the depth of 0-10 cm in K. tibetica swamp meadow was significantly higher than that in K. humilis and K. pygmaea meadows (P<0.01). The herbaceous litter in K. tibetica swamp was significantly higher than those in K. pygnaeca and K. humilis meadows. The effects of plant litter are enhanced when ground water and soil moisture levels are raised. The relative importance of litter and vegetation may vary with soil water availability. In the K. tibetica swamp, total biomass was negatively correlated to species richness (P<0.05); aboveground biomass was positively correlated to soil organic matter, soil moisture, and plant cover (P<0.05); belowground biomass was positively correlated with soil moisture (P<0.05). However, in the K. pygnaeca and K. humilis meadow communities, aboveground biomass was posi-tively correlated to soil organic matter and soil total nitrogen (P<0.05). This suggests that the distribu-tion of biomass coincided with soil moisture and edaphic gradient in alpine meadows.     

Development of an index of abundance for pygmy rabbit populations

The pygmy rabbit (Brachylagus idahoensis) is a cryptic, burrowing lagomorph of conservation concern for which an efficient method to monitor populations is needed for conservation planning. We developed an index of abundance based on density of active burrow systems at 7 sites (57.2–118.5 ha) in east central Idaho. We conducted censuses of burrow systems and used mark-resight surveys of 80 radio-collared individuals to estimate density of rabbits. At 5 sites, we also used a second method to estimate rabbit numbers based on presence of tracks in snow around burrow systems. We evaluated patterns of burrow use by individuals and examined the relationship between vegetation structure and density of rabbits. Density of active burrow systems varied from 0.19 to 3.46 per ha, and density of rabbits ranged from 0.02 to 0.46 per ha. Number of burrow systems used by individuals increased with density of available burrows, which supported a nonlinear relationship between abundance of burrows and rabbits. Population density increased curvilinearly with density of active burrows accounting for >75% of the variation (r² = 0.79) in population estimates across sites. We documented a positive relationship between visual obstruction of vegetation and density of rabbits across 6 of the study sites. Our results suggest that density of burrows can serve as an index for monitoring changes in abundance of pygmy rabbits in east central Idaho and that this index also might be useful for monitoring changes in relative abundance over time at other locations. To assess abundance at larger spatial scales or across different regions, the index should be calibrated under regional conditions and site-level covariates should be evaluated. © 2011 The Wildlife Society.