伏牛山北坡猪獾(Arctonyx collaris)夏季巢穴特征

2005年7月和8月在伏牛山北坡调查猪獾巢穴共43个,对巢穴的海拔、植被类型、坡度、坡向、坡位、巢穴隐蔽程度、水源距离、干扰距离、郁闭度、洞口隐蔽程度、洞口数量、巢穴类型、乔木距离、灌木距离、灌木密度、倒木等16个指标进行评估.分析结果表明,伏牛山北坡猪獾夏季巢穴的选择特征是:(1)隐蔽因子,选择在巢穴和洞口的隐蔽程度、郁闭度均较高的阔叶林中;灌木密度高,乔木距离为75～150 cm.(2)地理因子,选择在海拔为900 ～1200 m的阳坡或半阳坡上,以1个洞口的石洞为主.(3)干扰因子,没有倒木,距离人类活动村落地点较近.(4)水源因子,水源距离在100 m以内.     

穿山甲洞穴生态学初步研究

20 0 0年 6月～ 2 0 0 1年 5月 ,在大雾岭自然保护区共记录到 6 1个穿山甲洞穴 ,并对其中的 4 0个进行了解剖 .结果发现 ,穿山甲的洞均为盲洞 ,没有分支 ;洞口径大小一般为长径 14 2 0± 2 79cm (n =6 1) ,短径 12 5 0± 2 83cm(n =6 1) ;洞穴可分为冬洞和夏洞 .冬洞在冬春季节打造 ,洞穴较深 (1 4 4± 0 73m ,n =2 8) .夏洞在夏秋季节打造 ,洞穴较浅 (0 32± 0 11m ,n =12 ) ;穿山甲多在冬春季打洞 ,夏季打洞少 ,并且主要选择在土质松软湿润、土层厚、地表有机质丰富的黄壤土中打洞 ,以获得食物白蚁 ,然后再利用它越冬、卧息、繁殖、隐藏和逃避敌害 ;穿山甲对新洞的平均利用时间为 12 2 5± 2 2 5d ,而对旧洞的再次利用率极低 (1/12 =8 33% ) .文中还记录了 6 1个洞穴所在的各种环境因子 (分为 9类 ,2 7种 ) ,并依据因子出现频次和系统聚类结果 ,对穿山甲的洞穴生境选择进行了分析 .穿山甲喜爱将洞穴设置在干扰程度小 (干扰源距离 >10 0 0m)、坡度较陡 (30°～ 6 0°)、坡向为半阴半阳坡、针阔混交林、中低海拔 (76 0～ 15 0 0m)、洞口隐蔽程度好 (全隐蔽或半隐蔽 )、中坡或下坡位、离水源距离近 (<5 0 0m)的生境内 ;不喜爱将洞穴设置在阴坡、洞口隐蔽程度差 (裸露 )、极陡坡 (>6 0°)或缓坡     

狼洞穴空间格局及生境选择的分析

内蒙古东部草原地区狼洞穴空间分布格局及其生境选择的聚类分析结果表明,影响狼洞穴分布的主要因子为人类活动干扰和水源距离,其次为隐蔽条件、坡位和坡度,狼选择洞穴的最适生境为陡坡,洞口北向,隐蔽条件中等以上,距人为干扰大于１０００ｍ和距水源小于１０００ｍ的地方     

贺兰山岩羊（Pseudois nayaur）夏季取食和卧息生境选择

采用直接观察法和痕迹检验法对贺兰山岩羊夏季取食和卧息生境选择进行研究.结果表明,夏季岩羊偏好的取食地位于海拔高度1 600～2 000 m的山地疏林草原带,地形为平滑起伏的坡、明显断裂的坡和悬崖,以灰榆和山杨为优势乔木或无树,乔木矮小稀疏且距离远,接近低矮但密度较大的灌木,食物较多,位于<30°和>35°半阴半阳坡的下坡位,接近水源,人为干扰距离500～1 000 m,距裸岩2～5 m,隐蔽级25%～75%;夏季岩羊偏好的卧息地具有位于海拔高度1 600～2 000 m和>3 000 m的山地疏林草原带及亚高山灌丛和草甸带,地形为明显断裂的坡和悬崖,以灰榆和山杨为优势乔木或无树,乔木和灌木均矮小稀疏且距离较远,食物较少,位于>35°阴坡的上坡位,接近水源,人为干扰距离远,接近裸岩,隐蔽程度低.岩羊的取食和卧息生境在乔木高度和距水源距离上差异不显著(P > 0.05),而其余生态因子均有显著差异(P < 0.05).与取食生境相比,岩羊选择的卧息生境具有乔木稀疏且距离较远、灌木较少、低矮且距离较远、食物丰富度低、坡度大、远离人为干扰、接近裸岩和隐蔽程度低的特征.逐步判别分析表明,食物丰富度、灌木高度、距水源距离、隐蔽级、灌木密度、灌木距离、乔木高度和乔木距离8个生态因子可以区分取食样方与任意样方,正确判别率为85.8%;而区分卧息样方与任意样方时,距水源距离、灌木高度、距裸岩距离、人为干扰距离、食物丰富度、灌木密度和灌木距离共7个生态因子发挥作用,正确判别率为89.1%.     

四川省巴塘县矮岩羊与斑羚冬季生境比较

2007年10～12月,在四川省巴塘县竹巴笼自然保护区,采用样线调查法对矮岩羊和斑羚冬季生境进行研究,利用卡方检验和Mann-Whitey U检验分析其生境选择差异.结果表明,矮岩羊对17种生境因子有选择性,倾向选择中等以上避风性,石质或便石质活动基底,灌丛盖度10%～40%、种数>4种、高度>100 cm,草种数>5种、高度<20 cm或>40 cm,坡度>60°的南坡或西坡,隐蔽级<30%或>60%,水源距离>500 m,裸岩距离<2m,林缘距离1000～1 500 m,1级风,海拔高度2 600～2 800 m,人为干扰距离500～1 000 m,动物干扰距离80～150 m的生境.斑羚对15种生境因子有选择性,倾向选择上坡或山脊坡位,灌丛盖度10%～40%、种数>5种、高度>100 cm,草种数4～5种、高度>40 cm,坡度>60°的南坡或东南坡,南风,隐蔽级>60%,林缘距离<1 500 m,海拔高度>2 800 m,水源距离>1 000 m,人为干扰距离>1 000 m,动物干扰距离80～150 m的生境.因子分析表明,影响矮岩羊生境选择的主要因子为人为干扰距离、海拔高度、林缘距离、水源距离、灌丛高度、隐蔽级、风级和动物干扰距离等生境因子,而影响斑羚生境选择的主要因子为人为干扰距离、海拔高度、林缘距离、水源距离、坡位、灌丛盖度、灌丛高度、隐蔽级、坡向和风向生境因子.虽然两物种在资源生态位上存在部分重叠,但在生境选择利用和空间生态位上皆存在很大差异.     

内蒙古东部草原地区赤狐繁殖期对洞穴的选择

通过对内蒙古东部草原地区赤狐的２５个洞穴观测,运用系统聚类分析的方法,研究了赤狐繁殖期的洞穴选择。结果表明,影响赤狐繁殖期洞穴选择的主要因子是水源,其次是坡向、坡位和坡度,人为干扰、隐蔽程度及洞口朝向等因子对其影响作用不明显。繁殖期赤狐的最适洞穴选择为：阳坡或半阴半阳坡、下坡位、坡度５°～２５°、距水源５００～１０００ｍ。     

四川西部石渠地区夏季藏狐巢穴选择的生境分析

通过对四川石渠地区夏季藏狐洞穴生境选择的研究 ,以水源距离、洞口朝向、坡向、坡度、坡位、植被类型及鼠兔和鼠类洞穴等 7项指标为变量 ,运用主成分分析和聚类分析相结合的方法对收集到的 5 4个藏狐洞穴样本进行了分析。主成分分析在 4个主成分下达到 85 %的显著性。在第一主成分中水源距离、坡度和坡位是重要的影响变量 ,在另外 3个主成分中鼠类洞穴数量以及植被类型两变量也非常重要。聚类分析显示 ,5 4个洞穴样本在 3个水平上聚成 5类。藏狐易于选择草甸地带 ,中缓坡和低坡位 ,坡向多为阳坡或半阳坡 ,水源距离小于5 0 0m的地方筑巢 ,其穴口朝向多位于 135°～ 36 0°之间。此外 ,鼠兔和鼠类洞穴在藏狐洞穴样方内的出现 ,但数量变异较大 ,揭示小型哺乳动物和藏狐之间可能存在着复杂的相互关系。通过对四川石渠地区夏季藏狐洞穴生境选择的研究 ,以水源距离、洞口朝向、坡向、坡度、坡位、植被类型及鼠兔和鼠类洞穴等 7项指标为变量 ,运用主成分分析和聚类分析相结合的方法对收集到的 5 4个藏狐洞穴样本进行了分析。主成分分析在 4个主成分下达到 85 %的显著性。在第一主成分中水源距离、坡度和坡位是重要的影响变量 ,在另外 3个主成分中鼠类洞穴数量以及植被类型两变量也非常重要。聚类分析显示 ,5 4     

大雾岭保护区穿山甲冬季生境选择

1999年12月至2001年2月,对大雾岭自然保护区穿山甲冬季栖息地的选择进行了研究,结果表明对林型选择的先后次序为针阔混交林、灌木丛、常绿阔叶林、针叶林;最偏爱针阔混交林,最不喜爱针叶林.多选择陡坡(30～ 60°);干扰源距离较远(>1 000 m),干扰程度小;林下草灌层盖度高(81% ～ 100%),隐蔽程度好; 阳坡或半阴半阳坡;中低海拔(760 ～ 1 500 m);中下坡位;水源距离较近(<500 m);乔木郁闭度适中(31% ～ 70%)的生境.较少选择上坡位,林下草灌层中低(0 ～ 50%),乔木郁闭度偏高(71%～ 100%)或偏低(0～ 30%),阴坡的生境.对洞口设置的要求是多朝南,而且要求隐蔽条件好,多数为全隐蔽或半隐蔽;最不喜爱将洞口设置在裸露、隐蔽程度差的生境,强力避免洞口向北.坡度、干扰源距离和林下草灌层盖度是影响穿山甲冬季栖息地选择的关键环境因子.     

贺兰山岩羊冬春季取食生境的比较

2003年11～12月和2004年4～6月,在贺兰山设定了25条固定样线,采用直接观察法对岩羊冬春季的取食生境选择进行了研究。结果表明,岩羊冬季对12种取食生境生态因子有选择性,偏爱选择位于山地疏林草原带,优势乔木为灰榆,乔木密度〈4株、高度4～6m,灌木密度〉5株、高度〉1．3m,食物质量〉50g,人为干扰距离〈500m,距裸岩距离〈2m的地方取食。而春季对11种取食生境生态因子有选择性,偏爱选择山地疏林草原带,优势乔木为灰榆,乔木密度〈4株、高度〈6m,灌木密度5～10株、高度1．3～1．7m,食物质量〉100g,海拔高度〈2000m,距水源距离〈500m,隐蔽级50％～75％的地点。冬春季岩羊对植被类型、地形特征、优势乔木、乔木密度、乔木高度、灌木密度、灌木距离、食物丰富度、坡向、坡度、距水源距离、人为干扰距离和隐蔽级的选择存在显著差异。主成分分析表明,冬季第1主成分的贡献率达24．493％,其中绝对值较大的权系数出现在植被类型、优势乔木、乔木高度、乔木距离、灌木密度、灌木高度、海拔高度、距水源距离和人为干扰距离等生态因子：春季第1主成分的贡献率达28．777％,其中绝对值较大的权系数出现在植被类型、乔木距离、灌木高度、灌木距离、食物丰富度、海拔高度和人为干扰距离等生态因子。随着北方地区冬春季食物数量和质量的剧烈变化,贺兰山岩羊对取食生境的利用对策也将发生一定程度的改变,与其他分布区的岩羊相比,贺兰山独特的地理位置和特殊生境使其在取食生境选择上存在很大差异。     

贺兰山牦牛冬春季的生境选择

在2009年12月－2010年1月和2010年4－5月,采用样线法结合直接观察法对贺兰山牦牛的冬春季生境选择进行了研究。结果表明,牦牛冬季对11种生境因子有选择性,偏爱山地针叶林带,海拔小于2 000 m,优势乔木为灰榆,坡度小于10,下坡位,距水源距离大于1 200 m,人为干扰距离2 000－4 000 m,隐蔽级大于70 %;春季牦牛对13种利用生境生态因子有选择性,偏爱于亚高山灌丛和草甸带,海拔大于3 000 m,乔木密度小于1株,乔木高度小于3 m,乔木距离大于3 m,灌木密度大于4 0株,灌木距离小于1 m,植被盖度大于7 0 %,上坡位,距水源的距离小于8 00 m,人为干扰距离大于4 000 m,隐蔽级大于7 0 %。冬春季牦牛在海拔、植被类型、地形特征、优势乔木、灌木种类、坡位、坡向、人为干扰距离、距水源距离上存在显著差异。主成分分析表明冬季第一主成分的贡献率21.100 %,其中绝对值较大的相关系数是乔木距离、优势乔木、乔木高度和乔木密度;春季第一主成分的贡献率是31.247 %,其中绝对值较大的相关系数是植被类型、海拔高度、地形特征和灌木密度。与其他分布地区的牦牛相比,贺兰山地区的牦牛能适应当地的地理特征和气候环境。     

How temperature,humidity, and burrow selection affect evaporative water loss in desert tortoises

By combining field behavior and microclimate measurements with biophysical models, I assessed the value of underground burrows as thermal refuge for desert tortoises (Gopherus agassizii) and their additional advantage for water conservation. Between 1000–1200 h, humidity was significantly higher and temperature and predicted evaporative water loss (EWL) lower inside burrows than on the surface. Greater burrow length and smaller entrances were correlated with greater burrow humidity. Furthermore, the range of variation in humidity, temperature and EWL over 24 h was greater on the surface than inside burrows. Thus, surface conditions would be more favorable during certain times of day.     

Estimating and Correcting for Bias in Population Assessments of Sooty Shearwaters

Abstract: We investigated the precision and accuracy of an infrared burrowscope for detecting sooty shearwater (Pufffinus griseus) chicks at 13 plots from 3 islands in southern New Zealand in 2003. We partially excavated burrows systems to reveal the entire burrow contents after 2 teams of observers had prospected all burrow entrances. Accuracy was similar between islands and observer teams at approximately 85%. The majority of the inaccuracy stemmed from failure to detect some chicks. Logistic regression modeling identified 4 burrow characteristics occurring between the entrance and the nest-site that influenced detection of burrow occupants. Detection was lower at nest-sites further from burrow entrances, in burrows with a high rate of burrow division, and in burrows with a high level of curvature. There was a positive relationship between the interaction of rate of division and curvature and detection of chicks. Distance from the burrow entrance was the only parameter that could be reliably used as a predictor of detection rate, so a reduced model containing only this variable was constructed to correct for burrowscope bias. The correction factor performed well on The Snares and Bench Island where predicted bias was very similar to observed levels (within 5%), but bias was overestimated on Putauhinu by up to 19.1%. Consistent bias, lack of damage to burrows from excavation, and the successful application of a correction factor all indicate the value of further testing burrowscope accuracy on other burrow-nesting seabird species.     

青藏高原东缘高寒森林小型兽类地表洞穴选择与生境特征

高寒森林地表的小型兽类洞穴是生态系统重要的景观特征,对于认识小型兽类的分布格局及其生态功能具有重要意义.为此,以青藏高原东缘典型高寒森林生态系统小型兽类洞穴为对象,于2015年夏季(7—9月)研究了其地表分布与生境特征.结果表明: 小型兽类洞穴平均洞口密度为182.8个·hm^-2,不同森林植被类型显著影响洞穴密度,表现为针叶林(328.6个·hm^-2)>针阔混交林(160.0个·hm^-2)>灌木林(125.0个·hm^-2)>阔叶林(81.5个·hm^-2)>竹林(66.7个·hm^-2). Mann-Whitney U Test和主成分分析表明,小型兽类栖息样地的乔木郁闭度、乔木均高、乔木胸径、乔木密度、地表植被盖度、倒木密度、倒木覆盖度、灌木均高都显著大于非栖息样地;乔木因子是决定小型兽类生境选择的首要因子,贡献率最大(44.8%),其次是倒木因子(23.2%)和灌草丛因子(13.9%).说明高寒森林地表有明显的小型兽类洞穴分布,其分布格局主要受植被和倒木的影响.     

The microenvironment of house mice on Marion Island (sub-Antarctic)

On Marion Island, house mice ( Mus musculus) establish burrow systems that range from unbranched corridors 0.5 m long with a single chamber (in some instances without a chamber) to complexly branched systems extending over an area of up to 4 m² and containing up to four chambers. Total underground area occupied by burrow systems (chambers plus corridors) was from 5 to 23 m² ha^-1, corresponding to burrow-system volumes of 250-1,300 dm³ ha^-1. In autumn, about three-quarters of chambers contained small food caches. Most (87%) entrances to burrow systems faced away from prevailing winds, especially winds that bring snow, hail or rain. Seasonal and diurnal temperature variations in burrows are considerably dampened (daily minimum in burrows seldom drops below 2°C), compared with the air just above the vegetation canopy. Over the whole year, total night-time warmth in a burrow (heat sum, 24,883 degree hours) was 53% greater than at the top of the canopy (16,317 degree hours). Burrows' entrances are generally connected above ground by runways (paths and tunnels through the vegetation). Runways also represent a warmer environment than the air above the canopy during the breeding season at night (13,466 degree hours at the runway surface compared with 11,900 degree hours at the top of the canopy). House mice, which are living close to their physiological limits, temperature-wise, on Marion Island thus evade the worst extremes of the island's climate by constructing burrows and above-ground runways and this is an important factor in their survival.     

Hot stuff in the bushes: Thermal imagers and the detection of burrows in vegetated sites

1. Thermal imaging technology is a developing field in wildlife management. Most thermal imaging work in wildlife science has been limited to larger ungulates and surface‐dwelling mammals. Little work has been undertaken on the use of thermal imagers to detect fossorial animals and/or their burrows. Survey methods such as white‐light spotlighting can fail to detect the presence of burrows (and therefore the animals within), particularly in areas where vegetation obscures burrows. Thermal imagers offer an opportunity to detect the radiant heat from these burrows, and therefore the presence of the animal, particularly in vegetated areas. Thermal imaging technology has become increasingly available through the provision of smaller, more cost‐effective units. Their integration with drone technology provides opportunities for researchers and land managers to utilize this technology in their research/management practices.
2. We investigated the ability of both consumer (<AUD$20,000) and professional imagers (>AUD$65,000) mounted on drones to detect rabbit burrows (warrens) and entrances in the landscape as compared to visual assessment.
3. Thermal imagery and visual inspection detected active rabbit warrens when vegetation was scarce. The presence of vegetation was a significant factor in detecting entrances (p < .001, α = 0.05). The consumer imager did not detect as many warren entrances as either the professional imager or visual inspection (p = .009, α = 0.05). Active warren entrances obscured by vegetation could not be accurately identified on exported imagery from the consumer imager and several false‐positive detections occurred when reviewing this footage.
4. We suggest that the exportable frame rate (Hz) was the key factor in image quality and subsequent false‐positive detections. This feature should be considered when selecting imagers and suggest that a minimum export rate of 30 Hz is required. Thermal imagers are a useful additional tool to aid in identification of entrances for active warrens and professional imagers detected more warrens and entrances than either consumer imagers or visual inspection.

     

Burrow Characteristics and Microhabitat Use of the Turpan Wonder Gecko Teratoscincus roborowskii(Squamata,Gekkonidae)

Burrow structural charactersitcs and microhabitat use of the Turpan wonder gecko Teratoscincus roborowskii(Gekkonidae) were studied between April and September of 2013 in the Turpan Eremophytes Botanic Garden,in the Turpan Depression of Western China.Burrow depth,entrance orientation,entrance height and width were observed.We assessed microhabitat selection and noted differences in microhabitat use among males,females,and juveniles.The magnitude of selection was measured using Jacobs' index of selectivity.Entrance height and width of the burrows of adults were significantly larger than those of juveniles,but the difference in burrow depth was not significant.The directional orientation of the burrow entrance showed a preference for the north-northeast and south-southeast,which were likely influenced by local prevailing winds and sunlight.Both the adult and juvenile geckos prefer to construct their burrows in sandy soil within a layer of loose soil whose thickness is greater than 30 cm.A majority of the burrows were located within 20 m of the nearest plant.Nearly half(48%) of the entrances of juveniles were located within 5 m of the nearest vegetation,significantly different from those of the adults.Results showed that the Turpan wonder gecko did not utilize microhabitats according to their availability,but rather that it preferred microhabitats which contained dead wood or the caper bush.Our results suggested that burrow characteristics and microhabitat selection were important factors in T.roborowskii adaptation to harsh and arid desert habitats.     

Kangaroo Rats Remodel Burrows in Response to Seasonal Changes in Environmental Conditions

Burrow architecture enhances important animal functions such as food storage, predator avoidance, and thermoregulation. Occupants may be able to maximize fitness by remodeling burrows in response to seasonal changes in climate and predation risk. My objective was to examine how banner‐tailed kangaroo rats (Dipodomys spectabilis) modify the number of burrow entrances in response to seasonal conditions. For 3 yr, I monitored fluctuations in number of burrow entrances in kangaroo rat mounds. Individual kangaroo rats continually remodeled mounds in response to seasonal conditions. Compared to summer, mounds in winter had approximately 50% fewer entrances and plugged entrances were common. Monthly differences in number of entrances were closely linked with seasonal changes in soil temperature and precipitation. Number of entrances decreased as soil temperature and precipitation declined. Changes in burrow entrances likely reflect seasonal differences in the relative importance of burrow functions. Fewer burrow entrances during winter would create a warmer microclimate by reducing convective heat loss in mounds, resulting in thermoregulatory savings for occupants. During the summer, thermoregulatory costs of kangaroo rats are low, but risk of seed cache spoilage and predation from snakes increases. Adding burrow entrances after large summer rainfall events would increase the evaporation rate within mounds, reducing spoilage of seed caches. More burrow entrances would also reduce predation risk in the summer by providing additional escape routes.     

The use of cover and burrows by a population of rabbits (Mammalia: Oryctolagus cuniculus) in eastern Scotland

Adult rabbits were trapped in the spring on an area of grass and broom in the east of Scotland. They were ear-tagged and a sample of males and females were fitted with radio-collars. These were followed for two months to see whether they used burrows or ground cover for shelter during the day. Rabbits found on the surface were disturbed to see whether they bolted to burrows or stayed on the surface. The population was then re trapped to measure the population density, which was estimated to be 12.6 adults/ha in March, allowing for an apparent trapping bias against older females. One hundred and twelve burrow entrances/ha were counted from random quadrats. Males were more likely to be found on the surface than females, and rabbits that were more often on the surface were less likely to bolt to burrows when disturbed. Even when rabbits did bolt to burrows they frequently left them shortly afterwards and returned to the cover of the broom. Males that were most often found on the surface were lighter in weight than those found in burrows. This was not the case for females.     

Activity patterns, feeding and burrowing behaviour of the crab Ucides cordatus (Ucididae) in a high intertidal mangrove forest in North Brazil

Activity patterns, feeding and burrowing behaviour of the economically important semi-terrestrial mangrove crab Ucides cordatus (Ucididae, L. 1763) was studied in a high intertidal Rhizophora mangle forest stand in Bragança, North Brazil. Video observations in the rainy and dry season were conducted over 24 h cycles at different lunar phases to investigate the behaviour of these litter-feeding crabs outside their burrows. During the rainy season, crabs stayed inside their burrows for 79% and 92% of the time during day and night, respectively. Time spent for feeding, burrowing and other activities outside their burrows was significantly longer during the day with 9.9% (night: 1.7%) and at waning and waxing moon with 9% (full and new moon: 0.9%). At neap tides (no tidal inundation) foraging and feeding activities outside burrows were clearly light-dependent, increasing at dawn and decreasing at dusk. Highest activities during daytime relate to the visual localisation of food. During the dry season, crabs spent less time inside burrows at neap tides than during the rainy season (80% and 91%, respectively). However, time spent for feeding activities was similar during both seasons. During almost all observation periods crabs collected leaf litter, but rarely fed on it outside burrows. At neap tides nearly all available litter was collected, suggesting that the U. cordatus population is litter-limited during these times. At spring tides (regular tidal inundation) the surface activity of U. cordatus was tide-dependent. Crabs closed their burrow entrances 2-3 h before flooding and re-emerged as soon as the tide retreated. During the day, burrow maintenance was the second most frequent behaviour after feeding. Agonistic interactions were regularly observed and were mainly related to burrow defence. The mean foraging radius of the crabs was only 19 cm (max: 1 m) underneath high Rhizophora mangle trees where crab densities were high. The results point to a high competition for burrows and show that U. cordatus is territorial. It is concluded that several exogenous factors, in particular light, leaf litter availability, flooding of burrows and the presence of conspecifics are important in controlling the crabs' activity patterns.