Behavior and diet of the Critically Endangered Eulemur cinereiceps in Manombo forest, southeast Madagascar

Manombo Special Reserve is a parcel of rainforest along the southeastern coast of Madagascar, containing eight lemur species, including the White-collared brown lemur (Eulemur cinereiceps [Eulemur albocollaris]). Following a drastic cyclone in the region in January of 1997, the population of E. cinereiceps at Manombo was reduced by half. Results indicate that individuals of this critically endangered species at Manombo consume a total of 54 plant species belonging to 24 families, with over two-thirds of the diet comprised of ripe and unripe fruits. White-collared brown lemurs also opportunistically feed on novel food items and invasive plants in their recovering habitat. We report the first record of E. cinereiceps consuming a shelf fungus species growing on invasive trees. During feeding, lemurs tore pieces of the fungus from the trees with their hands and mouth (chewing cycle duration mean 0.28 s; SD 0.01). White-collared brown lemurs also consumed spicy fruits of a non-native plant species (Aframomum angustifolium) growing in highly disturbed open areas. Feeding bouts typically began by stripping away the outer covering with the anterior dentition, with pulp and seeds then consumed (chewing cycle duration mean 0.22 s; SD 0.005). This is the first record of consumption of either of these resources for any lemur species at Manombo. Ability to feed on items like A. angustifolium may permit E. cinereiceps to avoid competition with other species in this highly degraded forest environment.RÉSUMÉ La Réserve Spéciale de Manombo est un fragment de forêt dense humide de basse altitude et située le long de la côte Sud-est de Madagascar. Cette partie de forêt abrite au total huit espèces de lémuriens, y compris le Lémur à collier blanc (Eulemur cinereiceps [Eulemur albocollaris]). Le passage dramatique du cyclone Gretelle dans la région en janvier 1997 a réduit de moitié la taille de la population d’E. cinereiceps dans sa zone de distribution. Les résultats des études effectuées sur les individus restants de cette espèce, qui est classée comme Gravement Menacée, permettent d’énumérer un total de 54 espèces de plantes appartenant à 24 familles qui sont consommées par l’espèce. D’autre part, deux tiers du régime alimentaire d’E. cinereiceps sont représentés par des fruits mûrs ou non. Le Lémur à collier blanc consomme occasionnellement une quantité assez importante de plantes envahissantes pour assurer ses besoins nutritifs, ce qui n’est pas habituel dans l’histoire naturelle de la vie des lémuriens. La présente étude constitue également la première observation de consommation d’une espèce inconnue de champignon par les représentants d’E. cinereiceps. Dans le présent cas, ledit champignon venait juste de pousser sur un pied mort de Cecropia peltata, une espèce allogène et envahissante de la région. Durant la prise de nourriture, l’animal a arraché des morceaux du champignon sur l’arbre mort avec la main et puis la bouche. La partie consommée a été mâchée par l’animal pendant une période de 0,28 s. Le Lémur à collier blanc consomme aussi des fruits épicés d’une espèce de plante allogène (Aframomum angustifolium) qui ne pousse que dans des zones ouvertes et extrêmement dégradées. La prise de nourriture sur cette espèce de plante commence par l’enlèvement de la partie dure du fruit, pour cela l’animal utilise ses dents antérieures très puissantes, puis il tire soigneusement en même temps avec ses dents et sa langue la partie charnue et les graines. Cette prise de nourriture s’effectue pendant une période d’environ 0,22 s. C’était la première fois dans l’histoire des lémuriens de Manombo que des observations ont été effectuées sur un animal en train de manger des espèces de plantes inhabituelles. L’aptitude de manger des espèces de plantes telle que A. angustifolium pourrait permettre à E. cinereiceps d’éviter la compétition avec les autres espèces de lémuriens vivant dans cet environnement dégradé

Three flying fox (Pteropodidae: Pteropus rufus) roosts, three conservation challenges in southeastern Madagascar

We visited three roosts of the Madagascar flying fox Pteropus rufus in December 2005 in the Anosy Region. Colony size was 900 at Berenty Private Reserve, 412 at Amborabao and 54 at Sainte Luce, based on single counts at each site. Hunting at the roost is prohibited at Berenty but P. rufus is trapped at night in the area surrounding the reserve, where it feeds on sisal. At Amborabao, the bats roost in a sacred forest and hunting is forbidden. At Sainte Luce, the forest is highly degraded and the bats are hunted frequently, despite efforts to engage the local community in forest conservation. Questionnaires with people living near the roosts revealed the flying foxes were regarded as pests of litchis in Amborabao and Sainte Luce. Berenty is the only site where tourists are able to observe roosting P. rufus. The role of sacred forests and local taboos (fady) is very relevant for P. rufus conservation and might be the only practical mechanism in sites where legislation on hunting and land use is not being enforced. RÉSUMÉTrois gîtes de Pteropus rufus ont été visités dans la région Anosy en décembre 2005. La population était composée de 900 individus à Berenty, 412 à Amborabao et 54 à Sainte Luce, le comptage ayant été fait une seule fois dans chaque gîte. La chasse au dortoir est interdite à Berenty mais P. rufus est capturé la nuit, lorsque les individus se nourrissent dans les plantations de sisal environnantes. A Amborabao, le dortoir se trouve dans une forêt sacrée où la chasse est interdite. A Sainte Luce, la forêt est extrêmement dégradée et les chauves-souris sont chassées fréquemment malgré les efforts pour impliquer la communauté locale dans la conservation de la forêt. Les interviews avec les gens vivant près des dortoirs ont montré que les P. rufus sont considérés comme nuisibles car consommateurs de fruits de litchis à Amborabao et Sainte Luce. Berenty est le seul site où les touristes peuvent observer P. rufus au dortoir. Les forêts sacrées, les croyances locales et les tabous (fady) sont importants pour la conservation de P. rufus et pourraient être les seuls facteurs pour expliquer le respect des régulations cynégétiques et foncières

Dietary flexibility of the greater bamboo lemur (Prolemur simus), a specialized feeder, in eastern Madagascar

The degree of dietary flexibility in primates is species specific; some incorporate a wider array of resources than others. Extreme interannual weather variability in Madagascar results in seasonal resource scarcity which has been linked to specialized behaviors in lemurs. Prolemur simus, for example, has been considered an obligate specialist on large culm bamboo with >60% of its diet composed of woody bamboos requiring morphological and physiological adaptations to process. Recent studies reported an ever‐expanding list of dietary items, suggesting that this species may not be an obligate specialist. However, long‐term quantitative feeding data are unavailable across this species’ range. To explore the dietary flexibility of P. simus, we collected data at two northern sites, Ambalafary and Sahavola, and one southern site, Vatovavy, from September 2010 to January 2016 and May 2017 to September 2018, respectively. In total, we recorded 4022 h of behavioral data using instantaneous sampling of adult males and females from one group in Ambalafary, and two groups each in Sahavola and Vatovavy. We recorded 45 plant species eaten by P. simus over 7 years. We also observed significant differences in seasonal dietary composition between study sites. In Ambalafary, bamboo was the most frequently observed resource consumed (92.2%); however, non‐bamboo resources comprised nearly one‐third of the diet of P. simus in Sahavola and over 60% in Vatovavy. Consumption of all bamboo resources increased during the dry season at Ambalafary and during the wet season at Vatovavy, but never exceeded non‐bamboo feeding at the latter. Culm pith feeding was only observed at Ambalafary, where it was more common during the dry season. We identify P. simus as a bamboo facultative specialist capable of adjusting its feeding behavior to its environment, indicating greater dietary flexibility than previously documented, which may enable the species to survive in increasingly degraded habitats

Global importance of Indigenous Peoples, their lands, and knowledge systems for saving the world's primates from extinction

Publisher Copyright: Copyright © 2022 The Authors, some rights reserved.Primates, represented by 521 species, are distributed across 91 countries primarily in the Neotropic, Afrotropic, and Indo-Malayan realms. Primates inhabit a wide range of habitats and play critical roles in sustaining healthy ecosystems that benefit human and nonhuman communities. Approximately 68% of primate species are threatened with extinction because of global pressures to convert their habitats for agricultural production and the extraction of natural resources. Here, we review the scientific literature and conduct a spatial analysis to assess the significance of Indigenous Peoples' lands in safeguarding primate biodiversity. We found that Indigenous Peoples' lands account for 30% of the primate range, and 71% of primate species inhabit these lands. As their range on these lands increases, primate species are less likely to be classified as threatened or have declining populations. Safeguarding Indigenous Peoples' lands, languages, and cultures represents our greatest chance to prevent the extinction of the world's primates.Peer reviewe

Global importance of Indigenous Peoples, their lands, and knowledge systems for saving the world’s primates from extinction

Primates, represented by 521 species, are distributed across 91 countries primarily in the Neotropic, Afrotropic, and Indo-Malayan realms. Primates inhabit a wide range of habitats and play critical roles in sustaining healthy ecosystems that benefit human and nonhuman communities. Approximately 68% of primate species are threatened with extinction because of global pressures to convert their habitats for agricultural production and the extraction of natural resources. Here, we review the scientific literature and conduct a spatial analysis to assess the significance of Indigenous Peoples’ lands in safeguarding primate biodiversity. We found that Indigenous Peoples’ lands account for 30% of the primate range, and 71% of primate species inhabit these lands. As their range on these lands increases, primate species are less likely to be classified as threatened or have declining populations. Safeguarding Indigenous Peoples’ lands, languages, and cultures represents our greatest chance to prevent the extinction of the world’s primates.info:eu-repo/semantics/publishedVersio

Tropical field stations yield high conservation return on investment

Conservation funding is currently limited; cost‐effective conservation solutions are essential. We suggest that the thousands of field stations worldwide can play key roles at the frontline of biodiversity conservation and have high intrinsic value. We assessed field stations’ conservation return on investment and explored the impact of COVID‐19. We surveyed leaders of field stations across tropical regions that host primate research; 157 field stations in 56 countries responded. Respondents reported improved habitat quality and reduced hunting rates at over 80% of field stations and lower operational costs per km 2 than protected areas, yet half of those surveyed have less funding now than in 2019. Spatial analyses support field station presence as reducing deforestation. These “earth observatories” provide a high return on investment; we advocate for increased support of field station programs and for governments to support their vital conservation efforts by investing accordingly

Factors influencing terrestriality in primates of the Americas and Madagascar

Among mammals, the order Primates is exceptional in having a high taxonomic richness in which the taxa are arboreal, semiterrestrial, or terrestrial. Although habitual terrestriality is pervasive among the apes and African and Asian monkeys (catarrhines), it is largely absent among monkeys of the Americas (platyrrhines), as well as galagos, lemurs, and lorises (strepsirrhines), which are mostly arboreal. Numerous ecological drivers and species-specific factors are suggested to set the conditions for an evolutionary shift from arboreality to terrestriality, and current environmental conditions may provide analogous scenarios to those transitional periods. Therefore, we investigated predominantly arboreal, diurnal primate genera from the Americas and Madagascar that lack fully terrestrial taxa, to determine whether ecological drivers (habitat canopy cover, predation risk, maximum temperature, precipitation, primate species richness, human population density, and distance to roads) or species-specific traits (body mass, group size, and degree of frugivory) associate with increased terrestriality. We collated 150,961 observation hours across 2,227 months from 47 species at 20 sites in Madagascar and 48 sites in the Americas. Multiple factors were associated with ground use in these otherwise arboreal species, including increased temperature, a decrease in canopy cover, a dietary shift away from frugivory, and larger group size. These factors mostly explain intraspecific differences in terrestriality. As humanity modifies habitats and causes climate change, our results suggest that species already inhabiting hot, sparsely canopied sites, and exhibiting more generalized diets, are more likely to shift toward greater ground use

Local Perspectives on Environmental Insecurity and Its Influence on Illegal Biodiversity Exploitation

Environmental insecurity is a source and outcome of biodiversity declines and social conflict. One challenge to scaling insecurity reduction policies is that empirical evidence about local attitudes is overwhelmingly missing. We set three objectives: determine how local people rank risk associated with different sources of environmental insecurity; assess perceptions of environmental insecurity, biodiversity exploitation, myths of nature and risk management preferences; and explore relationships between perceptions and biodiversity exploitation. We conducted interviews (N = 88) with residents of Madagascar’s Torotorofotsy Protected Area, 2014. Risk perceptions had a moderate effect on perceptions of environmental insecurity. We found no effects of environmental insecurity on biodiversity exploitation. Results offer one if not the first exploration of local perceptions of illegal biodiversity exploitation and environmental security. Local people’s perception of risk seriousness associated with illegal biodiversity exploitation such as lemur hunting (low overall) may not reflect perceptions of policy-makers (considered to be high). Discord is a key entry point for attention

Madagascar insecurity data

The data instrument is attached to the manuscript file as supplementary information. Michigan State University’s Committee on Research Involving Human Subjects IRB# x10-394 reviewed and approved all methods and procedures used in this research. A committee-approved informed consent was obtained in verbal form due to potential participant illiteracy. In instances where participants approved use of a digital voice recorder, consent was documented digitally. In all instances, participants had to verbally consent to participate in the study before data collection commenced