Nutritional responses to different diet quality in the subterranean rodent Ctenomys talarum (tuco-tucos)

Nutritional response to different diet quality was examined in the subterranean rodent Ctenomys talarum (tuco-tuco). Animals maintained in captive conditions were fed with three plant species that differed in their fibre content. Tuco-tucos showed the ability to perform adjusts in short time lapse in response to diet quality; food ingestion, egestion and feces ingestion changed in animals under different plant species diets. Time budget, mainly time devoted to feeding and activity accompanied such changes. Coprophagy was practiced along the day and night following the arrhythmic activity pattern found for this species. Feces reingestion was not associated to resting. Furthermore, it was observed during fresh food ingestion, being pellets chewed. Soft and hard feces differed in morphological and nutritional characteristics.     

Comparison of sandbathing and grooming in two species of kangaroo rat

Sandbathing and grooming behaviours of two species of kangaroo rat (Dipodomys merriami and D. microps) were compared after zero and three days of sand deprivation. Results showed that D. merriami sandbathed and groomed at higher frequencies and over a longer time period than D. microps. Comparison of hair lipids revealed that D. merriami produced more oils. The data support the hypothesis that lipids in the hair are removed by sandbathing and suggest that D. merriami requires more pelage maintenance than D. microps. Three hypotheses about the function of lipids in the pelage of kangaroo rats are discussed.     

Eimeria utahensis sp. n. from Kangaroo Rats (Dipodomys ordii and D. microps) in Northwestern Utah*

SYNOPSIS. The sporulated oocysts of Eimeria utahensis sp. n. from 2 species of kangaroo rats in northwestern Utah are described. The oocysts averaged 42.0 by 39.3 μ, and had rough, yellow-brown walls, about 3 μ thick. In each sporocyst, a substiedal body was seen beneath the Stieda body; this is the 1st report of such a structure in any Eimeria species. E. utahensis was found in 3.6% of 196 Dipodomys ordii and 19.4% of 36 D. microps. The incidence was higher in young adult than in adult Ord kangaroo rats and lowest in juveniles; in D. microps only adults were infected. The mean prepatent period was 9.8 days. The patent period could not be determined because of apparent reinfections; there was no evidence of immunity.     

Morphometric analyses of non-invasive fecal samples of the Korean long-tailed goral (Naemorhedus caudatus) for species and age identification

The Korean long-tailed goral (Naemorhedus caudatus) is at risk of population decline due to habitat loss and fragmentation. Therefore, it is essential to ascertain its presence and/or the identity of individuals of the goral using non-invasive fecal samples for its conservation and management. In this study, we examined the morphology of fecal samples to provide the baseline data that can be used to distinguish species and age of goral individuals. We detected a significant difference in the length-to-width ratios of feces among the five ungulate species found in Korea. Also, we detected a significant difference in the length-to-width ratios of feces of gorals depending on the age groups. To assess the accuracy of species and age identification based on the fecal morphology, we conducted a series of blind comparison between the mean length-to-width ratios of the fecal pellets and the reference mean ratio values of the fecal pellets. Using 20 fecal pellets, our results showed 73%–86% probability of correct identification of the three species (gorals, goats, and roe deer), and 83%–90% probability of correct identification of >5 year-old goral individuals. The use of fecal morphometric analyses will be useful for the studies of Korean ungulate species, particularly the endangered gorals.     

Adaptations for leaf eating in the great basin kangaroo rat,Dipodomys microps

Summary Dipodomys microps forages in saltbush (Atriplex confertifolia), gathering the leaves into its external check pouches and returning them to the burrow to be cached or eaten. The leaves are available throughout the year and contain 50–80% water. D. microps can survive on these leaves in the laboratory without other food or water, but it is unusual among kangaroo rats in that it quickly succumbs when placed on a diet of air-dried seeds without water or succulent plant material. Its mean urine concentration on the seed diet was 2827 mOsm/l, which is lower than any previously reported for the genus. On the other hand, D. merriami, which occurs with D. microps and is well known as a seed specialist, cannot survive on the saltbush leaves, although it is capable of living on a seed diet without water or green vegetation. D. microps is behaviorally and morphologically specialized for exploiting the unusual leaves of A. confertifolia. The leaves are higher in electrolyte content than the leaves of most plants; but the electrolytes, which are most highly concentrated on the leaf surfaces, apparently serve in the maintenance of water balance in the leaves. D. microps does not usually consume saltbush leaves in toto, but rather uses its unique, chisel-shaped lower incisors to shave off the outer tissue from both sides of the leaf, and then consumes the inner tissue. Sodium concentration with respect to water in the eaten tissue was only 3% that of the discarded shavings, and the specialized photosynthetic parenchyma which is eaten is high in starch content.The highly divergent dietary habits of D. microps should serve to minimize competition with its granivorous congeners. Some of the present limits to the geographic distribution of D. microps are a reflection of its reliance on the leaves of perennial shrubs throughout the year; but where its does occur, D. microps should be independent of the unpredictable availability of ephemeral annuals.     

Lizard herbivory in a sand dune environment: the diet of Angolosaurus skoogi

Summary Early observations of the feeding habits of Angolosaurus skoogi (Andersson), a 50–120 g lizard inhabiting the almost vegetationless dunes of the northern Namib Desert, indicated that this species was herbivorous. Less than two percent of living lizard species are predominantly herbivorous and these species tend to have a high body mass (>100 g). We therefore analysed fecal pellets of A. skoogi to obtain dietary details of this relatively rare lizard. Eighteen food taxa were identified: 81 percent by mass was composed of vegetable matter, of which 56 percent was an endemic, perennial cucurbit Acanthosicyos horrida. Both spatial and temporal variation in dietary composition were apparent. Ready access to water in the form of A. horrida is postulated to have allowed Angolosaurus to occupy this extreme habitat and to forage on components of the windblown detritus, a food source that would probably not be usable in other circumstances.     

Is Size of Fecal Pellets a Reliable Indicator of Species of Leporids in the Southern Rocky Mountains?

Abstract: In the southern Rocky Mountains, USA, snowshoe hares (Lepus americanus) and mountain cottontails (Sylvilagus nuttallii) are syntopic. Previous researchers used size of fecal pellets to identify leporid species in the Southern Rockies, a common criterion for identifying species of cervids. We measured 655 fecal pellets from 10 mountain cottontails and 2,374 fecal pellets from 23 snowshoe hares. We found no relationship between the body weight of mountain cottontails and the size of their fecal pellets (r = 0.04, F = 0.01, P = 0.91) but found one for snowshoe hares (r = 0.48, F = 9.3, P = 0.005). Although the 2 species differed in the size of their fecal pellets, the difference between means (1.2 mm) was sufficiently small to require measuring individual pellets and is only applicable to individuals of adult size. Although fecal pellet counts may be used to estimate presence and relative abundance of snowshoe hares in the absence of syntopic leporids, where multiple species of leporids are syntopic this method may yield misleading results.     

Next-Generation Sequencing for Rodent Barcoding: Species Identification from Fresh,Degraded and Environmental Samples

Rodentia is the most diverse order among mammals, with more than 2,000 species currently described. Most of the time, species assignation is so difficult based on morphological data solely that identifying rodents at the specific level corresponds to a real challenge. In this study, we compared the applicability of 100 bp mini-barcodes from cytochrome b and cytochrome c oxidase 1 genes to enable rodent species identification. Based on GenBank sequence datasets of 115 rodent species, a 136 bp fragment of cytochrome b was selected as the most discriminatory mini-barcode, and rodent universal primers surrounding this fragment were designed. The efficacy of this new molecular tool was assessed on 946 samples including rodent tissues, feces, museum samples and feces/pellets from predators known to ingest rodents. Utilizing next-generation sequencing technologies able to sequence mixes of DNA, 1,140 amplicons were tagged, multiplexed and sequenced together in one single 454 GS-FLX run. Our method was initially validated on a reference sample set including 265 clearly identified rodent tissues, corresponding to 103 different species. Following validation, 85.6% of 555 rodent samples from Europe, Asia and Africa whose species identity was unknown were able to be identified using the BLASTN program and GenBank reference sequences. In addition, our method proved effective even on degraded rodent DNA samples: 91.8% and 75.9% of samples from feces and museum specimens respectively were correctly identified. Finally, we succeeded in determining the diet of 66.7% of the investigated carnivores from their feces and 81.8% of owls from their pellets. Non-rodent species were also identified, suggesting that our method is sensitive enough to investigate complete predator diets. This study demonstrates how this molecular identification method combined with high-throughput sequencing can open new realms of possibilities in achieving fast, accurate and inexpensive species identification.     

Redundant or complementary? Impact of a colonizing species on community structure and function

Recent studies suggest that species with similar functional traits will have similar effects on ecosystems, but evidence for redundancy of species impacts is limited. Here we use a long‐term experiment to gain insight into functional relationships within a desert rodent community. Experimental removal of kangaroo rats, Dipodomys spp., coupled with the recent, serendipitous colonization of a single species of large pocket mouse Chaetodipus baileyi yielded treatments that differed in the diversity of large granivorous rodents present. We evaluated functional overlap of C. baileyi and the other resident large granivores (i.e. the kangaroo rats) by comparing total energy use of granivorous rodents and total abundance and species richness of small granivores across treatments before and after the arrival of C. baileyi. We found that C. baileyi almost completely compensated for the changes in these key ecosystem‐level properties caused by kangaroo rat removal, but it differentially impacted the population dynamics of individual small granivorous rodent species. Thus, its effects were largely complementary, rather than redundant, to those of the missing kangaroo rats. Although short‐term or single‐measure analyses may suggest redundancy, our results support the longstanding dictum that niches of coexisting species are often similar but rarely, if ever, identical.     

The role of the freshwater shrimp <Emphasis Type="Italic">Atyaephyra desmarestii</Emphasis> in leaf litter breakdown in streams

In aquatic ecosystems, microorganisms and invertebrates provide critical links between plant detritus and higher trophic levels. Atyaephyra desmarestii is an omnivorous decapod that inhabits freshwaters and exhibits high tolerance to temperature oscillations and high ability to colonize new habitats. Although A. desmarestii is able to ingest a variety of foods, few studies have been conducted to elucidate the role of this freshwater shrimp on detritus breakdown in streams. In this study, A. desmarestii was allowed to feed on conditioned or unconditioned alder and eucalyptus leaves in microcosms with or without access to its fecal pellets. At the end of the experiment, total body length of the animals was measured, and the remaining leaves and fecal pellets were used for dry mass quantification and assessment of bacterial and fungal diversity by denaturing gradient gel electrophoresis (DGGE). Cluster analyses of DGGE fingerprints indicated that the major differences in microbial communities on leaves were between leaf types, while on fecal pellets were between conditioned and unconditioned leaves. However, the consumption rate by the shrimp did not differ between leaf types, and was significantly higher on leaves conditioned by microorganisms and in treatments without access to feces. In treatments without access to feces, the production of feces and fine particulate organic matter was also significantly higher for conditioned leaves. Overall, our results support the feeding plasticity of A. desmarestii and its potential role in plant litter breakdown in streams. This might have implications for maintaining stream ecosystem functioning, particularly if more vulnerable shredders decline.     

The periodicity of daily activity and its seasonal changes in free-ranging and captive kangaroo rats

Summary Populations ofDipodomys microps andD. merriami in eastern California (37°11N. Lat.) are active on the surface throughout the night and during the whole year. These two species, and the males and females within each species, show no significant differences in times of beginning or end of activity. Beginning and end of nightly activity generally fall within the brighter part of the twilights, even though the total time spent on the surface by individuals is at times only an hour or two, or even less, per night. Near the summer solstice in southern Saskatchewan, Canada (50°45N. Lat.), when sunset and sunrise were 7 h 43 min apart, the time from onset to end of activity in a population ofD. ordii (the northernmost of all kangaroo rats) was only 6 h; these animals were also only on the surface at intervals during the night.During the course of the year, the light intensity at which the first individualD. microps andD. merriami became active on the surface varied between 200 and 2,000 lux, and the light intensity at which the last individual was active in the morning varied between 50 and 20,000 lux. There was no apparent influence of the moonlight cycle upon the onset and end of activity; in fact the light levels at beginning and end of activity are about 2 to 4 orders of magnitude brighter than that at full moon. The onset of activity is fairly synchronous within the population in that most individuals surface within about a fhalf hour of each other; furthermore, two-thirds of the individuals appearing in the first 32 min of activity had already appeared within the first 12 min. There appears to be a similar, synchronous, but less well marked end of activity in the morning.There were systematic seasonal changes in the time relative to sunset and sunrise respectively, and in the corresponding light intensities, at which the animals began and ended activity. The phase relationship between the onset of activity and sunset ( _onset) showed tow maxima and two minima per year, but the phase relationship between the end of activity and sunrise ( _end) showed only one maximum and one minimum per year. On the other hand, the annual range of change in the evening phase _onset (28 min) was half the annual range of change in the morning phae _end (57 min). Such a conspicuous difference in frequency and amplitude of _onset and _end has not previously been reported for any species, nor has it been predicted by models of circadian rhythms and phase relationships. The resemblance of the course of annual change in _onset to annual change in length of twilight and the resemblance of annual change in _end to change in length of night are discussed. These differences may underline a circadian system based on two separate, but normally coupled components, which could be separately synchronized by dusk and dawn respectively.The daily running-wheel activity of 10 individually housedD. merriami under natural skylight in Los Angeles (34°05N. Lat.) began and ended at light intensities two to three orders of magnitude lower than corresponding values for surface activity in the field. The onset and end of activity for the captive population did not show the synchronous peaks typical of the field populations; nor did the nightly activity patterns of individuals show peaks at the beginning and end of the night. The social isolation of the captive kangaroo rats is suggested as a factor contributing to differences between activity parameters in captivity and field.Proximate and ultimate factors shaping the periodicity of activity in kangaroo rats are discussed. It is hypothesized that social interactions involving some form of territoriality may give rise to a population peak in onset of activity in some solitary mammals such as kangaroo rats. A set of criteria is presented for comparing vertebrate species with regard to the periodicity and synchronization of both daily and seasonal functions.     

Intraguild predation among Scolothrips longicornis (Thysanoptera: Thripidae), Neoseiulus californicus and Typhlodromus bagdasarjani (Acari: Phytoseiidae) under laboratory conditions

This study was carried out on the ability of predatory thrips Scolothrips longicornis Priesner to feed on 2 phytoseiid species and vice versa. Also the effect of predation of Neoseiulus californicus (McGregor) on Typhlodromus bagdasarjani Wainstein and Arutunjan and vice versa was evaluated. The larvae, prepupae, and pupae of thrips and the eggs, larvae, and protonymphs of phytoseiids were selected as intraguild prey. The intraguild predation (IGP) among S. longicornis and 2 phytoseiid species was unidirectional and in favor of phytoseiids, i.e., S. longicornis was not able to feed on larval stages of 2 phytoseiids. However, N. californicus and T. bagdasarjani fed on the 1st instar larvae (1.39 and 0.80 per day), 2nd instar larvae (0.87 and 0.55 per day), prepupae (0.51 and 0.48 per day), and pupae of thrips (0.51 and 0.49 per day, respectively). Both phytoseiids fed on eggs, larvae, and protonymphal stages of each other. Females of N. californicus consumed more phytoseiid larvae (2.49 per day) than T. bagdasarjani, which consumed 1.08 N. californicus larvae per day. When Tetranychus urticae was presented as an extraguild prey, intensity of IGP between 2 species of phytoseiids and on larval stages of S. longicornis reduced significantly. Therefore, it is concluded that (i) IGP existed among the 3 examined species and lack of feeding of S. longicornis on 2 phytoseiid species can be justified by its feeding type (monophagy), (ii) N. californicus was much more prone to IGP than was T. bagdasarjani.     

Niche shifting in response to warming climate after the last glacial maximum: inference from genetic data and niche assessments in the chisel‐toothed kangaroo rat (Dipodomys microps)

During Pleistocene glacial‐interglacial cycles, the geographic range is often assumed to have shifted as a species tracks its climatic niche. Alternatively, the geographic range would not necessarily shift if a species can adapt in situ to a changing environment. The potential for a species to persist in place might increase with the diversity of habitat types that a species exploits. We evaluate evidence for either range shift or range stability between the last glacial maximum (LGM) and present time in the chisel‐toothed kangaroo rat (Dipodomys microps), an endemic of the Great Basin and Mojave deserts. We modeled how the species’ range would have changed if the climatic niche of the species remained conserved between the LGM and present time. The climatic models imply that if D. microps inhabited the same climatic niche during the LGM as it does today, the species would have persisted primarily within the warm Mojave Desert and expanded northwards into the cold Great Basin only after the LGM. Contrary to the climatic models, the mitochondrial DNA assessment revealed signals of population persistence within the current distribution of the species throughout at least the latest glacial‐interglacial cycle. We concluded that D. microps did not track its climatic niche during late Pleistocene oscillations, but rather met the challenge of a changing environment by shifting its niche and retaining large portions of its distribution. We speculate that this kind of response to fluctuating climate was possible because of ‘niche drifting’, an alteration of the species’ realized niche due to plasticity in various biological characters. Our study provides an example of an approach to reconstruct species’ responses to past climatic changes that can be used to evaluate whether and to what extent taxa have capacity to shift their niches in response to the changing environment – information becoming increasingly important to predicting biotic responses to future environmental changes.     

草食性小型哺乳动物的食粪行为

食粪行为广泛存在于草食性中小型哺乳动物中,是特指动物取食由盲肠内容物所形成的粪便的行为。这些动物具有特殊的结肠分离机制,能够产生两种不同的粪便。食粪行为延长了食物在消化道中的平均滞留时间;提高了对高纤维食物的消化率;弥补了食物中氨基酸和维生素的缺乏,满足了动物对这些营养物质的需求;是动物消化过程中的一个特殊组成部分。食粪行为的节律性是动物对取食和食粪的风险权衡的结果。食粪行为的发展是与动物草食性的特点紧密相关的,是动物对身体较小、食物质量低和天敌威胁等不利因素适应的结果。本对这些方面的研究进展进行了综述。     

Patterns of Cryptosporidium Oocyst Shedding by Eastern Grey Kangaroos Inhabiting an Australian Watershed

The occurrence of Cryptosporidium oocysts in feces from a population of wild eastern grey kangaroos inhabiting a protected watershed in Sydney, Australia, was investigated. Over a 2-year period, Cryptosporidium oocysts were detected in 239 of the 3,557 (6.7%) eastern grey kangaroo fecal samples tested by using a combined immunomagnetic separation and flow cytometric technique. The prevalence of Cryptosporidium in this host population was estimated to range from 0.32% to 28.5%, with peaks occurring during the autumn months. Oocyst shedding intensity ranged from below 20 oocysts/g feces to 2.0 × 10⁶ oocysts/g feces, and shedding did not appear to be associated with diarrhea. Although morphologically similar to the human-infective Cryptosporidium hominis and the Cryptosporidium parvum “bovine” genotype oocysts, the oocysts isolated from kangaroo feces were identified as the Cryptosporidium “marsupial” genotype I or “marsupial” genotype II. Kangaroos are the predominant large mammal inhabiting Australian watersheds and are potentially a significant source of Cryptosporidium contamination of drinking water reservoirs. However, this host population was predominantly shedding the marsupial-derived genotypes, which to date have been identified only in marsupial host species.     

Ultradian rhythms and the nutritional importance of caecotrophy in captive Brandt’s voles (<Emphasis Type="Italic">Lasiopodomys brandtii</Emphasis>)

Ingestion of soft faeces derived from caecal contents, caecotrophy, in herbivorous small mammals is considered an adaptation to the metabolic disadvantage of small body size, especially when feeding on diets of low quality. We investigated daily activity patterns in captive Brandt’s voles (Lasiopodomys brandtii), including feeding, locomotion, caecotrophy, and defaecation, by continuous 24 h visual observation; and estimated the contribution of soft faeces ingestion (caecotrophy) to intake of protein and energy. Brandt’s voles ingested 68.8 ± 7.4 fecal pellets per day, averaging 17 ± 2% of total faeces produced. The amount of faeces ingested did not differ between female and male voles or between night and day time. All animals showed average 3 h ultradian cycles in behaviour during the course of the day and night. The contributions of caecotrophy to the dietary intake of crude protein and metabolizable energy were estimated respectively as 9 and 8% on a high-protein, easily digested commercial rabbit pellet diet. However, the importance of caecotrophy to the field voles is likely to be higher on a natural diet of lower nutrient density. The rhythm of caecotrophy in voles depended mainly on the rhythm of the colonic separation mechanism in the proximal colon and passage in the distal colon, and may be regulated by feeding and other activity rhythms. Ultradian rhythms in caecotrophy helped to minimise potential conflicts in utilizing the gut, especially in balancing the caecal fermentation and salvaging nutrients contained in caecal bacteria.     

Mechanisms for the keystone status of kangaroo rats: graminivory rather than granivory?

Graminivory by kangaroo rats (Dipodomys spp.) was investigated as a potential mechanism for the keystone role of these rodents in the dynamics of desert grasslands. Experiments confirmed that Ord's kangaroo rats (Dipodomys ordii) cut and consumed a large proportion of the tillers of three Chihuahuan Desert tussock-forming grass species. Field observations indicated that the characteristically cut grass tillers were absent from all-rodent and medium-sized kangaroo rat exclosures, but were frequent in large-sized kangaroo rat and rabbit exclosures, indicating that the medium-sized kangaroo rats (D. ordii, D. merriami) were responsible for grass cutting. Tiller waste as a percentage of peak standing crop ranged from 7% in grassland habitats to 0.7% in Flourensia cernua shrubland. Of the 13 species of perennial, tussock-forming grasses measured, only one, Muhlenbergia porteri, had no tillers cut by kangaroo rats. This study demonstrates that the keystone role of kangaroo rats in Chihuahuan Desert grassland ecosystems is probably the result of their graminivory. Received: 28 October 1996 / Accepted: 26 February 1997     

Food and feeding of three Distichodus species (Pisces: Characiformes) in Lake Kainji,Nigeria

The food and feeding of three Distichodus species in Lake Kainji, Nigeria was studied. Sixty 140 and 528 specimens of Distichodus brevipinnis, D. engycephalus and D. rostratus respectively were examined. All three species were exclusively herbivorous. Their feeding was intense in the evening until dusk but declined during the day. All exhibited some seasonal variation in their food preferences.     

Fecal Shedding of Zoonotic Food-Borne Pathogens by Wild Rodents in a Major Agricultural Region of the Central California Coast

Recent outbreaks of food-borne illness associated with the consumption of produce have increased concern over wildlife reservoirs of food-borne pathogens. Wild rodents are ubiquitous, and those living close to agricultural farms may pose a food safety risk should they shed zoonotic microorganisms in their feces near or on agricultural commodities. Fecal samples from wild rodents trapped on 13 agricultural farms (9 produce, 3 cow-calf operations, and 1 beef cattle feedlot) in Monterey and San Benito Counties, CA, were screened to determine the prevalence and risk factors for shedding of several food-borne pathogens. Deer mice (Peromyscus maniculatus) were the most abundant rodent species trapped (72.5%). Cryptosporidium species (26.0%) and Giardia species (24.2%) were the predominant isolates from rodent feces, followed by Salmonella enterica serovars (2.9%) and Escherichia coli O157:H7 (0.2%). Rodent trap success was significantly associated with detection of Salmonella in rodent feces, while farm type was associated with fecal shedding of Cryptosporidium and Giardia. Seasonal shedding patterns were evident, with rodents trapped during the spring and summer months being significantly less likely to be shedding Cryptosporidium oocysts than those trapped during autumn. Higher rodent species diversity tended to correlate with lower fecal microbial prevalence, and most spatiotemporal pathogen clusters involved deer mice. Rodents in the study area posed a minimal risk as environmental reservoirs of E. coli O157:H7, but they may play a role in environmental dissemination of Salmonella and protozoa. Rodent control efforts that potentially reduce biodiversity may increase pathogen shedding, possibly through promotion of intraspecific microbial transmission.     

Structure in a desert rodent community: use of space around Dipodomys spectabilis mounds

Summary In an earlier paper (Bowers et al. 1987) we reported patterns of microhabitat use by desert rodents among 0.25-ha plots where seeds were added or certain rodent species removed. We used the results to make inferences about the spatial organization of the whole rodent community. Here we change our focus to test for spatial usage patterns at a smaller (within-plot) scale. Specifically, we examine to what extent spatial use varies with proximity to mounded burrows of the large kangaroo rat, Dipodomys spectabilis. Capture frequency of five of nine rodent species was correlated with distance from D. spectabilis mounds, while six species showed correlations with vegetative cover that also increased with distance from mounds. In general, sites nearer mounds were underutilized, and sites further away overutilized by the rodent community as a whole. Logistic regression analyses showed for six species that vegetative cover and particularly, distance to nearest mound accounted for more of the variation in whether a station captured a species than did plot-to-plot (i.e., treatment) effects. Similar analyses using two plots where D. spectabilis was removed (where vacant mounds persited for years) suggested that the selection of microhabitats with contrasting vegetation structure was more pronounced in the absence than in the presence of D. spectabilis, and that in most cases distance from mounds was important only if mounds were occupied. Spatial structure in this community appears to revolve around the occupation of space by dominant individuals that partially modify/obscure large scale patterns involving the selection of particular structural microhabitats.