Marcie Elene Marcus Jopony scite author profile

Marcie Elene Marcus Jopony

3Publications

43Citation Statements Received

103Citation Statements Given

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102

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Wilmar International (Singapore)

Publications

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Importance of Small Forest Fragments in Agricultural Landscapes for Maintaining Orangutan Metapopulations

Ancrenaz

Nardiyono²,

Jopony

et al. 2021

Front. For. Glob. Change

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Historically, orangutans (Pongo spp.) lived in large contiguous areas of intact rainforest. Today, they are also found in highly modified and fragmented landscapes dominated by oil palm or industrial timber plantations; a situation that calls for new conservation approaches. Here we report signs of orangutan presence in more than 120 small forest fragments of <500 ha in size and isolated in extensive oil palm plantations across Borneo. We confirmed the long-term presence of adult resident females with dependent young in 42% of the fragments assessed by ground survey (n = 50), and the regular sightings of males traveling across the landscape. We argue that orangutans using and living in small isolated forest patches play an essential part in the metapopulation by maintaining gene flow among larger sub-populations distributed across multiple-use landscapes. In some cases, translocations may be necessary when the animals are in imminent danger of being killed and have no other refuge. However, the impacts of removing animals from spatially dispersed metapopulations could inadvertently decrease critical metapopulation functionality necessary for long-term viability. It is clear that orangutans need natural forest to survive. However, our findings show that forest fragments within agricultural landscapes can also complement conservation areas if they are well-distributed, properly connected and managed, and if orangutan killing is prevented. Efforts to better understand the dynamics and the functionality of an orangutan metapopulation in forest-farmland landscape mosaics characteristic of the Anthropocene are urgently needed to design more efficient conservation strategies for the species across its range.

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The importance of orangutans in small fragments for maintaining metapopulation dynamics

Ancrenaz

Nardiyono²,

Jopony

et al. 2020

Preprint

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Orangutans (Pongo spp.) occur at low densities and therefore large areas are necessary to sustain viable metapopulations, defined here as sets of conspecific units of individuals linked by dispersal. Historically, orangutans lived in large contiguous areas of intact rainforest, but are now increasingly found in agricultural and other landscapes modified by people. Here we collate evidence of orangutans utilizing isolated forest fragments (< 500 ha) within multiple-use landscapes dominated by oil palm monoculture across Borneo. Orangutan signs (i.e. nests) were evident in 76 fragments surveyed by helicopter, and in 50 of 70 additional fragments surveyed on the ground; on average 63 ha in size. This includes presence of adult resident females with dependent young confirmed in 40% of the fragments assessed by ground survey. Our study revealed some resident females are raising offspring in isolated forest patches within mature oil palm stands. This not only confirms that some forest patches can sustain orangutans, but indicates migratory males are capable of reaching these fragments scattered throughout the multiple-use landscape. Therefore, orangutans that use or live in even small isolated forest patches are an essential part of the overall metapopulation by maintaining gene flow between, and genetic connectivity within, populations distributed across larger multiple-use landscapes. Orangutan survival is commonly thought to be low in small, isolated forest patches, and the customary management strategy is to remove (translocate) these individuals and release them in larger forests. In some cases, translocations may be necessary, i.e. in case of fire or when the animals are in eminent danger of being killed and have no other refuge. However, the small amount of data available indicates that mortality rates during and after translocations are high, while the impacts of removing animals from spatially dispersed metapopulations are unknown. Therefore, we argue the current policy of routine translocation rather than conserving the species within human-modified landscapes could inadvertently decrease critical metapopulation functionality necessary for long-term viability. It is clear that orangutans need natural forest to survive, but our findings show that fragmented agricultural landscapes can also serve as complementary conservation areas in addition to fully protected areas if they are well designed with ecological connections, and if orangutan killing can be prevented. To achieve this, we call for a paradigm shift from the traditional large single forest model to one that emphasizes metapopulation functionality in the fragmented foresthuman use matrix characteristic of the Anthropocene.

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Notes on the Herpetofauna of Kampung Giam, Padawan, Sarawak

Zainudin¹,

Nawan²,

Jopony³

et al. 1970

BJRST

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Padawan lies at one of the proposed Sarawak Geopark, yet information on the herpetofauna of the area islimited. A survey was conducted from 16 August 2008 to 24 August 2008 to determine species assemblage andrelative abundance of herpetofauna at Kampung Giam, Padawan. Sampling involved stream and forest transects,quadrat, pitfall and sticky traps at four study sites along Sungai Sewa. A total of 13 species of frogs (62individuals), eight species of lizards (nine individuals) and four species of snake (one individual each) werecaptured. The area was dominated by the family of Ranidae (83.9%), followed by Bufonidae (8%),Dicroglossidae (3.2%), Microhylidae (3.2%) and Megophryidae (1.6%). The most abundant and dominantspecies was Odorrana hosii, with 36 individuals caught. In addition three endemic Bornean frogs namelyLimnonectes leporinus, Meristogenys phaeomerus and Meristogenys orphnocnemis were also captured in thisstudy, which account for 33.33% endemism. The reptiles caught, on the other hand, were relatively low withonly 12 species and 13 individuals captured. Nevertheless this study provides an increment of Sarawak faunaldatabase for conservation management of Bornean fauna as well as the Sarawak Geopark.

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