Space allowance and the behaviour of captive southern hairy-nosed wombats (Lasiorhinus latifrons)

Captive southern hairy-nosed wombats (Lasiorhinus latifrons) often display indicators of substandard welfare, including aggression and stereotypical pacing. To determine if space availability influences the welfare of wombats, the behaviour of three groups of L. latifrons (n = 3) was studied in three different sized enclosures: small (S) (75.5 m2; the minimum space requirement for three wombats in Queensland, Australia), medium (M) (151 m2, twice the minimum space) and large (L) (224 m2, three times the minimum space) in a Latin Square design. Compared to wombats in larger enclosures, those in the small enclosure were observed to display more biting (S: 1.96; M: 0.42; L: 0.28, SED ± 0.56 counts / day, P = 0.01), retreat from conspecifics (S: 15.0; M: 9.9; L: 7.1 SED ± 2.66 counts / day, P = 0.03), and visual scanning (S: 52.8; M: 33.9; L: 28.8, SED ± 4.62 counts / day, P < 0.001); they also spent more time fenceline digging, which may represent attempts to escape (S: 0.78; M: 0.16; L: 0.24, SED ± 0.07 min / m / day, P < 0.0001). Those in the largest enclosure showed less self-directed grooming behaviour than those in the two smaller enclosures (S: 23.80; M: 24.08; L: 14.42, SED ± 3.22 counts / day, P = 0.02). It is concluded that small 2 enclosure size had a negative impact on the behaviour of wombat, and as a consequence, current 30 minimum space requirements for wombats in captivity should be reassessed

Differential responses of captive southern hairy-nosed wombats (Lasiorhinus latifrons) to the presence of faeces from different species and male and female conspecifics

The southern hairy-nosed wombat (Lasiorhinus latifrons) appears to use scent marking, including defaecation, for social communication in the wild. This premise assumes that the receiver wombat is able to distinguish between faeces from different sources. To examine this theory, four types of faeces (male wombat, female wombat, dingo and a plastic control) were placed into the enclosures of 12 captive wombats. Behaviour, inter-individual distance and enclosure use were recorded during the period of placement, as well as the period before and the period after. When faeces were present, the wombats used concealed locations more often than other periods (mean %: pre-treatment: 71.3, treatment: 75.6, post-treatment: 72.7; P < 0.05). During the same period they also reduced grazing (mean min/period: pre- treatment: 15.8, treatment: 6.9, post- treatment: 13.1; P = 0.0002) and walking 2 activity (mean min/period: pre- treatment: 85.2, treatment: 66.9, post- treatment: 78.2; P = 0.01), indicating an increased perception of risk. Wombats approached the dingo faeces 5.6 times per treatment period, which was greater than for the control (3.0; P = 0.004) or female wombat faeces (3.7; P = 0.049). They also avoided other wombats most when male wombat faeces were present (8.3 retreats/period) compared to the control (4.5; P = 0.02), or female wombat (4.3; P = 0.01). There was a residual effect of increased wombat avoidance the period after presentation of dingo faeces (9.6; P ≤ 0.05). It is concluded that the southern hairy-nosed wombat can differentiate between faeces from different species and sex of conspecifics, and that predator faeces and those from male conspecifics increase wombat avoidance behaviour either during or after presentation

Fostering appropriate behaviour in rehabilitant orangutans (Pongo pygmaeus)

Rehabilitation centres in Indonesia and Malaysia accommodate displaced orangutans (Pongo pygmaeus and P. abelii) and aim to facilitate their release into the wild by developing in them the skills that are necessary for survival. Regular forest excursions are provided but their efficacy in improving learning of appropriate behaviours is unknown. We observed forty rehabilitating orangutans from the Orangutan Care and Quarantine Centre during three forest excursions each to determine whether their behaviour fostered the development of survival skills. In total 38% of their time was spent in locomotion, particularly quadrupedal arboreal travel (13%), walking (8%), climbing (7%) and vine-swinging (4%). 26.5% of their time was spent 5 m or more from the ground, at heights up to 25 m. Arboreal activities were more 2 common early in the excursions and interaction with c are-givers more common later (hour 1: 0.3% of time; hour 5: 0.9% of time). Animals of lower body weight were significantly more likely to engage in arboreal movement, locomotion in general, eating of bark and leaves, and social play, and less likely to eat insects. Those that had been at the Centre the longest were less likely to perform arboreal activities and significantly more likely to be found standing and at ground level, than those that were there for a shorter time. During this study, many forest food items were consumed, particularly leaves and fruit, but also invertebrates and bark. Little time was spent in sexual behaviour, tool use, nest building or socially-mediated learning, but social play occupied almost 6% of their time. We conclude that regular excursions into the forest are likely to assist in the development of locomotion and feeding skills for survival in rehabilitating orangutans, but special attention is needed to encourage nest building, social activities and arboreal activity. Animals least likely to benefit are heavy animals and those that have been captive for a long time

Intrasample variation and the effect of storage delay on faecal metabolite concentrations in the southern hairy-nosed wombat (Lasiorhinus latifrons)

Faecal hormone metabolite analysis offers a non-invasive alternative to blood sampling that is particularly relevant to wild animal populations. It has been used for reproductive and adrenal hormone monitoring in captive wombats, but no information exists on its accuracy when sample storage is delayed or on whether variation exists within samples. This study aimed to quantify the effect of storage delay and intrasample variation on faecal metabolite concentrations of testosterone, progesterone and corticosterone in southern hairy-nosed wombats. For all metabolites, intrasample variance was 15% or less of total variance. Delays in storage significantly changed metabolite concentrations, with progesterone showing a progressive decrease over time (072h: t24≤2.14, P≤0.05), testosterone showing a significant increase after 6-h delay (06h: t21≤2.83, P≤0.01), and corticosterone showing an initial increase (06h: t48≤3.60, P≤0.001), followed by a reduction to original concentrations by 72h (072h: t48≤0.91, P≤0.38). Although changes caused by storage delays may not obscure large hormonal fluctuations, this study outlines the importance of immediate storage and consistent sampling to allow the most accurate results to be obtained. Journal compilatio