Biodiversity of Forest Elephants (Loxodonta Cyclotis) Diet in the Ogooué Leketi National Park, Congo Brazzaville

The Ogooué Leketi National Park (OLNP) is located within the Batéké-Léconi-Léfini Landscape in the central basin of the Congo River. The Ogooué Leketi Elephant Project (OLEP) area is important for biodiversity conservation from its significant populations of forest species (forest elephant, gorillas, chimpanzees, duikers, monkeys, etc.) combined with savanna species (Grimm’s duiker, side-striped jackal, etc). Elephant sign is highest 0.9/km in the northwest of the Landscape in the border area of the Batéké Plateau National Park in Gabon where a number of mineral-rich clearings, or bais, attract forest elephants and others wildlife. Elephants travel a long distance and consume diverse plants and occasionally animals’ species from one clearing to others throughout the forest. This paper intends to provide an overall preliminary list of plants consumed by forest elephants across their feeding trials. The results of the study points to the fact that, elephants were found to be feeding on 258 different vegetal species and three animal species recorded from twenty-six elephants feeding trials from March 2013 to December 2014 through different methods. Among these plant species, 156 were identified by us and checked by botanists in both the CERVE at Brazzaville and herbarium of Kinshasa University. Elephants were not only eating plants but they were also consuming occasionally some invertebrate such as bees, termites and ants. An analysis of 53 dung piles revealed that 43 dung piles had traces of 26 species of fruit consumed by elephants while 10 dung piles had no traces of fruits. The OLNP is among the least described protected areas in the Republic of Congo, despite its speculated high potential biodiversity. This lack of ground-truth knowledge is attributed to the status of the protected area that Congolese government classified as park in 2018 after 14 years of existence.

Activity of Forest Elephant (Loxodonta cyclotis) In Two Clearings within Ogooué Leketi National Park, Congo Brazzaville

In order to increase our understanding of forest elephant (Loxodonta cyclotis) vocal communication, this study examined the spatial and temporal activity of elephants from two forest clearings (Bissoloko and Madjouama). To obtain data on the visit of elephant in the clearings daily, it requires considerable human and financial resources for conservation programs observations. However, we deployed autonomous acoustic recorders “SM2” to assess elephants’ activities both day and night time from 2013 to 2014. Elephant visitation in these clearings depends on certain factors as, seasons, years, and preferences of elephant to use one or more site. As a results this study found that (i) elephants visited Bissoloko clearing more than Madjouama, although these two clearings were within 5 km distant one another; (ii) Eighty six per cent of elephant calls occurred at night, and large changes in call density at night often were not reflected in similar changes during the day; (iii) there were significant differences in the calls made at night; (iv) elephants were found to be visiting clearings more often in the wet season than in the dry season; (v) visitation was significantly higher in 2013 than in 2014. Elephants used randomly one or other clearings. This empirical study suggests that African forest elephant has two vocal communication practices. Spatially separated females engage in rumble exchanges that help them to coordinate their movements and to bring them together. Both male and female elephants produce "mate attraction" rumbles to inform the opposite sex of their reproductive status. These results show the value of acoustic monitoring as a tool for better understanding of forest elephant behaviour. We suggest that passive acoustic monitoring should be incorporated into forest elephant monitoring programs to complement direct observations at forest clearings.

Elephants, Mobility and Captivity: What Can These Mighty and Majestic Animals Teach Us About Joint Health and Osteoarthritis?

The African bush and forest elephants, Loxodonta Africana and Loxodonta cyclotis, and the Asian elephant, Elephas maximus, are the largest land-dwelling animals. Elephants need to be highly mobile and active in order to find fresh food and water, and in the case of males, to locate females in estrus for breeding. Asian elephants walk up to 21 km each day and African elephants can walk up to 28 km per day. This high level of mobility in the wild is also important for maintaining an optimum musculoskeletal health. However, most zoo elephants live in restricted spaces and cold climates that require extended periods of indoor confinement are therefore unable to be as physically active. Zoo enclosures for elephants are relatively small with hard surfaces (i.e. concrete, tarmac and hard packed dirt), so they cannot exercise and are forced to stand on unnaturally hard surfaces continually. Physical inactivity in captivity makes them more prone to gaining weight and developing bone and joint diseases such as osteomyelitis, joint ankylosis and osteoarthritis (OA). Many health and welfare problems in captive elephants are likely to be caused by the lack of mobility. This perspective article focuses on the possible link between captivity, mobility, physical inactivity and the development of OA in captive elephants.

Elephants, Mobility and Captivity: What Can These Mighty and Majestic Animals Teach Us About Joint Health and Osteoarthritis?

The African bush and forest elephants, Loxodonta Africana and Loxodonta cyclotis, and the Asian elephant, Elephas maximus, are the largest land-dwelling animals. Elephants need to be highly mobile and active in order to find fresh food and water, and in the case of males, to locate females in estrus for breeding. Asian elephants walk up to 13 miles each day and African elephants can walk up to 28 km per day. This high level of mobility in the wild is also important for maintaining an optimum musculoskeletal health. However, their captive counterparts live in restricted spaces and cold climates that require extended periods of indoor confinement are therefore unable to be as physically active. Zoo enclosures for elephants are relatively small with hard surfaces (i.e. concrete, tarmac and hard packed dirt), so they cannot exercise and are forced to stand on unnaturally hard surfaces continually. Physical inactivity in captivity makes them more prone to gaining weight and developing bone and joint diseases such as osteomyelitis, joint ankylosis and osteoarthritis (OA). Up to 50% of deaths in captive elephants are caused by the lack of mobility. This perspective article focuses on the link between captivity, mobility, physical inactivity and the development of OA in captive elephants.

Molecular identification and geographic origin of a post-Medieval elephant finding from southwestern Portugal using high-throughput sequencing

Molecular species identification plays a crucial role in archaeology and palaeontology, especially when diagnostic morphological characters are unavailable. Molecular markers have been used in forensic science to trace the geographic origin of wildlife products, such as ivory. So far, only a few studies have applied genetic methods to both identify the species and circumscribe the provenance of historic wildlife trade material. Here, by combining ancient DNA methods and genome skimming on a historical elephantid tooth found in southwestern Portugal, we aimed to identify its species, infer its placement in the elephantid phylogenetic tree, and triangulate its geographic origin. According to our results the specimen dates back to the eighteenth century CE and belongs to a female African forest elephant (non-hybrid Loxodonta cyclotis individual) geographically originated from west—west-central Africa, from areas where one of the four major mitochondrial clades of L. cyclotis is distributed. Historical evidence supports our inference, pointing out that the tooth should be considered as post-Medieval raw ivory trade material between West Africa and Portugal. Our study provides a comprehensive approach to study historical products and artefacts using archaeogenetics and contributes towards enlightening cultural and biological historical aspects of ivory trade in western Europe.