about
Quantifying killing of orangutans and human-orangutan conflict in Kalimantan, IndonesiaEvolution and phylogeny of old world deerAlternative futures for Borneo show the value of integrating economic and conservation targets across borders.Mitogenomic phylogeny of the common long-tailed macaque (Macaca fascicularis fascicularis)Genome sequencing reveals fine scale diversification and reticulation history during speciation in SusComing down from the trees: is terrestrial activity in Bornean orangutans natural or disturbance driven?Breaking the link between environmental degradation and oil palm expansion: a method for enabling sustainable oil palm expansionTen principles for a landscape approach to reconciling agriculture, conservation, and other competing land usesWhy don't we ask? A complementary method for assessing the status of great apesUnexpected ecological resilience in Bornean orangutans and implications for pulp and paper plantation managementDeclining orangutan encounter rates from Wallace to the present suggest the species was once more abundantBorneo and Indochina are major evolutionary hotspots for Southeast Asian biodiversity.Anticipated climate and land-cover changes reveal refuge areas for Borneo's orang-utans.Targeted conservation to safeguard a biodiversity hotspot from climate and land-cover change.Use of limestone karst forests by Bornean orangutans (Pongo pygmaeus morio) in the Sangkulirang peninsula, east Kalimantan, Indonesia.Influence of a threatened-species focus on conservation planning.Recent surveys in the forests of Ulu Segama Malua, Sabah, Malaysia, show that orang-utans (P. p. morio) can be maintained in slightly logged forestsConserving biodiversity in production landscapes.First integrative trend analysis for a great ape species in BorneoFour decades of forest persistence, clearance and logging on Borneo.Through the eyes of children: perceptions of environmental change in tropical forestsAre comparative studies of extinction risk useful for conservation?Not by science alone: why orangutan conservationists must think outside the box.Soils on exposed Sunda shelf shaped biogeographic patterns in the equatorial forests of Southeast Asia.Understanding the impacts of land-use policies on a threatened species: is there a future for the Bornean orang-utan?Interspecific interactions between primates, birds, bats, and squirrels may affect community composition on Borneo.Co-occurrence patterns of Bornean vertebrates suggest competitive exclusion is strongest among distantly related species.Reconciling forest conservation and logging in Indonesian Borneo.People's perceptions about the importance of forests on BorneoIt's not just conflict that motivates killing of orangutans.Maintaining ecosystem function and services in logged tropical forests.A retrospective evaluation of the global decline of carnivores and ungulates.Geographic bias in citation rates of conservation research.Ecosystem services from a degraded peatland of Central Kalimantan: implications for policy, planning, and management.Strategies and alliances needed to protect forest from palm-oil industry.Cuddly animals don't persuade poor people to back conservation.Orangutans venture out of the rainforest and into the Anthropocene.Aquatic escape behaviour in mouse-deer provides insight into tragulid evolutionMentawai’s endemic, relictual fauna: is it evidence for Pleistocene extinctions on Sumatra?ORIGINAL ARTICLE: Mammals of Borneo - small size on a large island
P50
Q21134961-8A23D775-8363-4255-A777-FA79A3B3C13EQ28291349-56E063F0-001F-47D0-B7DF-FBD004748D64Q28649476-BB22F39D-D9C4-4F08-BCD4-B76F60D7D123Q28651725-386C56E9-5459-48F8-A8AB-0DDAB940DC2EQ28658391-0BF51230-89B5-48A0-9574-2E4687DEB360Q28659161-633E0887-822E-4D5D-97E2-882EFE7FC31DQ28681181-B27E1BDC-E117-474C-AB48-DD0676B97F82Q28685976-36C80B84-FD4E-4FC7-B590-BB4433339913Q28741466-11B82E17-6052-4111-A3A0-A317DB820236Q28749213-55171679-0B5E-4360-B5B4-2D86CD0F3757Q28749760-8EA4694B-C1F1-41CE-8985-10C8699B7695Q30839239-890DEEBE-9596-409F-A4E1-0A2F85FDF341Q30882784-1DBC703A-2A42-4056-ADC3-728F8E1070D0Q30885908-D5DA69FD-CC6A-430D-801A-943A054DA454Q33265445-C40ACDC5-3B71-484C-93A9-D52FCCFC3A34Q33511521-02CAC5A1-484E-41F5-BF6B-32FE6B021BD7Q33634055-58D7E5AE-3793-456F-845F-F25E273056B2Q33634055-ED737484-1C67-4D42-A95F-B573C05AC037Q33718353-4304FCEF-0857-4AF9-810D-918B01029612Q33885087-C7F45743-89A8-40D7-B0FD-91215EFD8BE4Q33910144-48C29C53-6476-4332-BAA5-3E58D78AA230Q34004781-B35FA8EE-596E-4E39-904E-A5A3D2D84FA6Q34056946-5E29EE94-D803-41C4-9CAE-1BB25340D837Q34103662-14868BE5-4932-4081-97A7-5FBBBBE76296Q34199551-11FC2839-54D6-49E8-A243-4573D12861E1Q34474132-26AFCDE8-5F3A-45F7-BA45-AF56F225E8CFQ34489379-14FA4829-8D72-457C-9A9F-7FA1D82F4DEAQ34489379-8E39B2CD-F6D1-4FF7-B725-DCEF5BA14C10Q34757277-E39234CA-0CB4-40F7-94C7-F58DC8FE291FQ34962336-EBF24C1D-431B-4C1A-A583-AF8E505D4D9FQ34988736-73B0424C-60B8-4195-B941-F481CF7F376AQ35018265-35D95933-1192-4D1D-9E2F-93AEB640A8DCQ35219285-58995EFC-BBCB-4D48-B072-05DB3319757BQ35238075-FDD7F591-B4EE-413A-93C4-863E764C81B6Q35589174-DE6ED1CA-4A3B-494E-A60A-104F5B0999A1Q35740623-2D14C732-80F7-4B63-975A-9A6CA8F3EC46Q35740623-85FE339A-A0F9-4B21-9915-37F5F30C64B4Q51696445-06ABF8FD-09F5-40EE-A455-EA47A19F1819Q53138709-FC2195C3-5A28-42A6-B0BC-B87ED33EC491Q55386251-29814987-C332-4B8E-B4BA-2785083141DF
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Erik Meijaard
@ast
Erik Meijaard
@de
Erik Meijaard
@en
Erik Meijaard
@es
Erik Meijaard
@nl
Erik Meijaard
@sl
type
label
Erik Meijaard
@ast
Erik Meijaard
@de
Erik Meijaard
@en
Erik Meijaard
@es
Erik Meijaard
@nl
Erik Meijaard
@sl
prefLabel
Erik Meijaard
@ast
Erik Meijaard
@de
Erik Meijaard
@en
Erik Meijaard
@es
Erik Meijaard
@nl
Erik Meijaard
@sl
P227
P106
P21
P214
2608152331601603260003
P227
1155545974
P31
P496
0000-0001-8685-3685
P735
P7859
viaf-2608152331601603260003