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English
Quest for Coexistence with Non-human Primates
-霊長類との共存を探る-
開催日:
2010年9月6日(月)、7日(火)
会場:
犬山国際観光センター フロイデ
スケジュール:
9月6日(月)
09:30 - 10:00 受付
10:00 - 10:30 「開会の挨拶」 松沢哲郎(霊長類研究所)
10:30 - 11:30 「Participative land-use planning for bonobo conservation in the Maringa-Lopori-Wamba landscape, Democratic Republic of Congo
(DRC)」
(コンゴ民主共和国マリンガ・ロポリ・ワンバ地域におけるボノボ保全のための参加型土地利用計画)
J. ナッコニー(メリーランド大学)
11:30 - 13:00 昼食
13:00 - 13:50 ポスターセッション1
14:00 - 15:00 「Field techniques for health monitoring and the study of disease transmission in primates: some recent examples of their use in the wild」
(野外研究における健康モニタリング法と霊長類における疾病伝播の研究法:最近の実例)
M.A. ハフマン(霊長類研究所)
15:10 - 17:40 ポスターセッション2
18:00 - 懇親会(グランツ、フロイデ地階)
9月7日(火)
09:10 - 10:10 「Conservation of primates in Vietnam」
(ベトナムにおける霊長類の保全)
T. ナドラー(ベトナム絶滅危惧霊長類保護センター)
10:20 - 11:50 ポスターセッション3
12:00 - 13:00 昼食
13:00 - 14:00 「Hybridization in primates」
(霊長類進化における雑種化の意義)
C. ルース(ドイツ霊長類センター)
14:10 - 15:40 ポスターセッション4
15:50 - 16:50 「Wide variety in the way of population management of primates」
(地域の状況に応じた霊長類の個体数管理法)
渡邊邦夫(霊長類研究所)
17:00 - 18:00 総合討論
主催:
霊長類研究所(世話人:川本芳、濱田穣、國松豊、橋本千絵、平崎鋭矢、大石高生、清水大輔(JMC))
第23回国際霊長類学会
共催:
財団法人日本モンキーセンター
後援:
犬山市
野外民族博物館リトルワールド
日本霊長類学会
使用言語:
英語
本共同利用研究会は、日本学術振興会の支援を受けています (若手研究者交流支援事業
~東アジア首脳会議参加国からの 招へい~(ASIAN-HOPE))。また、第32回国際霊長類学会(京都)の プレコングレスシンポジウムを兼ねています。さらに、生物多様性条約第10回締約国会議(COP10)のパートナーシップ事業でもあります。
連絡先: precongress2010@pri.kyoto-u.ac.jp
Field techniques for health monitoring and the study of disease
transmission in primates: some recent examples of their use in the
wild
Michael A. Huffman
Primate Research Institute, Kyoto University, Japan
Conservation medicine is an emerging, interdisciplinary field
that investigates the relationship between human and animal health
and the environmental conditions affecting the emergence of
infectious diseases. In collaboration with veterinarians,
virologists, parasitologists and other experts in the bio-medical
sciences, primatologists have begun to investigate the role of
diseases in the natural history of primates and as a tool for the
conservation of endangered wild populations. A key role of the
primatologist in this multidisciplinary research is the collection
of behavioral and ecological data necessary to elucidate the
impact of disease on a group and to collect the relevant samples
(urine, feces, hair, postmortem tissues) needed for laboratory
identification and quantification of the disease in question. Many
advances in the ability to identify parasite and viral infections
from non-invasively collected samples has strenghtened our ability
to determine and monitor disease affecting wild primate
populations. Such diseases as malaria, SIV (the precursor to HIV),
anthrax and ebola, all potentially life-threatening diseases to
humans and animals are now readily detectable from feces and
urine. Primatolgists also play a key role in long-term health
monitoring of groups. This is important for understanding seasonal
and individual specific processes of disease transmission and for
the early detection of emergent diseases in a population that, if
unchecked can propose a serious health risk to both local human
and animal safety. Health monitoring is not labor intensive and
can easily be incorporated into general observational protocol.
Given the non-invasive nature of sample collection, it does not
compromise with a policy of limited contact and proximity to study
subject. This talk will introduce collection techniques and
describe some recent findings from primates in the wild.
 Michael
A. Huffman
Mike is a faculty member at the Primate Research Institute of
Kyoto University and has conducted research on many primate
species in the wild, commensal to humans and in captivity for over
thirty years in Japan as well as Tanzania, Uganda and elsewhere in
Asia. His areas of expertise include behavioral ecology, parasite
ecology, ethnobotany and social learning. He has integrated all of
these disciplines into the study of animal self-medication, in
order to understand the impact of parasites on the behavior and
health of primates in nature. Mike is currently involved in
various collaborative research projects investigating the disease
ecology of primates and other animals in Japan, Sri Lanka,
Thailand, Vietnam and Taiwan. He is also deeply involved in the
research and education of young scientists around the world,
frequently lecturing at the graduate and undergraduate level
internationally and within Japan.
BACK
Wide variety in the way of population management of primates
Kunio Watanabe
Primate Research Institute, Kyoto University, Japan
In Japan crop-raiding by monkeys is a serious social problem
now; their range expanded close to the human settlements and they
often intrude into the center of big cities. After World War II it
was presumed that the wild population of Japanese macaques had
faced a extinction, prompting they legal protection since 1947.
During these 60 years their wild populations have apparently
recovered and are still increasing, especially in the area where
monkey populations contact with human settlements. The population
control of Japanese macaques is a controversial problem in society
today. After 1998 more than 10,000 monkeys were removed every
year, but crop-damages has not decreased, but instead seems to be
growing more serious. The changing society in Japan including its
economic structure and attitude toward wild animals as well as a
loss of wildlife management measures (hunting etc) may make these
problems more complicated. Meanwhile, the circumstances are quite
different in Southeast Asia. The populations of wild primates are
seriously threatened by large-scale habitat destruction. We
surveyed the current situation of mammals in Sumatra and found
that many species including arboreal primates were driven out from
their original habitats. The isolated small population of primates
may not be able to increase in some reserves and/or temple
forests. I hope to discuss how adaptive management can help to
deal with these different circumstances.
 Kunio Watanabe
Kunio Watanabe is a faculty member at the Primate Research
Institute, Kyoto University. He has conducted field research on
Japanese macaques throughout Japan and is currently involved in
establishing a population management policy of Japanese macaques
for the government. He has studied Asian primates throughout Asia
for 35 years, especially Sulawesi macaques, Sumatran species
including those living on the Mentawai Islands, long-tailed
macaques in Java and Thai, and golden snub-nosed monkeys in China.
His studies focus on population dynamics and cultural behavior. He
is also deeply involving in the conservation of these species and
education of young primatologists in Asia and elsewhere.
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Hybridization in primates
Christian Roos
Gene Bank of Primates and Primate Genetics Laboratory, German
Primate Center, Gottingen, Germany
Indochinese Primate Conservation Genetics Project
IUCN/SSC Primate Specialist Group, Section Southeast Asia and
China
Until recently, hybrid speciation was thought to be only a
marginal phenomenon in animal evolution. However, with the
application of molecular methods over the last 15 years, it became
clear that introgression and hybrid speciation is more common in
animals than was previously thought. A number of recent reviews on
interspecific hybridization illustrated an unexpectedly wide
taxonomic range and, depending on the group of organisms,
relatively high frequencies of interbreeding species. For
primates, information about hybridization is still scare compared
to fishes, birds or other mammals. However, recent reviews have
highlighted the taxonomic breadth of natural hybridization in the
primate order. Such hybridization has occurred mainly between
species (e.g., Lepilemur sp., Microcebus sp., Alouatta sp., Papio
sp., Macaca sp., Gorilla sp.), but has also been detected between
genera (e.g., Trachypithecus x Semnopithecus, Rungwecebus x Papio).
Even for the human lineage, hybridization has been suggested as an
important evolutionary mechanism. In my presentation, I will
provide an overview about what we know about hybridization in
primates, especially Asian primates, and which molecular methods
can be applied to detect hybridization. Finally, I will discuss
the impact of hybridization on taxonomy, conservation and
biomedical research.
 Christian
Roos
Christian Roos is senior scientist at the German Primate Center
and head of the Gene Bank of Primates and the Indochinese Primate
Conservation Genetics Project. For 15 years he has worked on the
genetics of primates in general, but mainly on Asian primates. In
his laboratory, various molecular methods as e.g. sequencing of
mitochondrial and nuclear genes, microsatellite analysis, SNP
typing or presence/absence analysis of Alu integrations are
applied to elucidate the population genetic structure, phylogeny
and phylogeography of primates. His studies provided essential
information on the evolution, taxonomy and distribution of various
primate radiations. As member of the Chinese and Malagasy sections
of the IUCN/SSC Primate Specialist Group and as deputy regional
coordinator of the Southeast Asian section, he is directly
involved in conservation actions.
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Conservation of primates in Vietnam
Tilo Nadler
Frankfurt Zoological Society / Endangered Primate Rescue Center,
Vietnam
The knowledge about the status of species and populations is an
important conservation tool. Depending on the changes of limited
funds for conservation activities, manpower, and education,
efforts can be concentrated on projects to stabilize critical
populations and to secure their survival. Data that is based on
monitoring new discoveries or dramatic population changes should
be updated. A continual lack of actual data for a specific taxon
shows the need for further work. Several cases are known in which
a late assessment of a believed common species has revealed a dire
situation and then required a high effort in conservation
activities.
Like all wildlife in Vietnam the 25 Vietnamese primate taxa are
also under extremely high pressure mostly though poaching for the
use in traditional medicine, luxury and expensive dishes,
ornaments, for the pet trade, and use for farming to supply
laboratories. A high number of animals are illegally exported to
China
The decrease of populations shows a dramatic loss of many,
especially small and isolated populations. The numbers of
individuals in larger populations show a steady decrease. The
total loss of some primate species for Vietnam in the long run can
not be excluded. More than 90% of the taxa are threatened with
extinction. Seven taxa listed as "Critically
Endangered", nine taxa as "Endangered" and seven
taxa as "Vulnerable". In recognition of the high
endemism and threat level, five Vietnamese species have been
consistently listed on "The World's Most Endangered
Primates" since its inception in 2000, more than any other
hotspot.
Despite the decrease in numbers of several primate species already
announced since the last twenty years no sufficient measures are
implemented to stop further loss. There are unfortunately only few
exceptions in the effort to reduce further loss of endemic
species. The Delacour's langur (Trachypithecus delacouri) and the
enigmatic Tonkin snub-nosed monkey (Rhinopithecus avunculus) now
have one stable or increasing population at least in one protected
area each, but several subpopulations disappeared already. The Cat
Ba langur's (T. poliocephalus poliocephalus) precipitous declines
have been halted. The grey-shanked douc langur (Pygathrix cinerea)
has received considerable survey effort, revealing additional
significant populations, but poaching is still a serious threat.
The conservation of the eastern black gibbon (Nomascus nasutus),
occurs in a small population in Vietnam and in an adjacent area in
China, and hopefully transboundary conservation activities can
support to stabilize this small population. Strong decisions and
actions are necessary to avoid further extirpations. National and
international conservation funds and capacity should be
concentrated on active protection work and reduced in field
studies in which the contents occasionally only record the
dwindling of populations.
 Tilo Nadler
Tilo Nadler is project manager of the "Vietnam Primate
Conservation Project" of Frankfurt Zoological Society and
Director of the Endangered Primate Rescue Center at Cuc Phuong
National Park, Vietnam. He has been working for nearly twenty
years on primate conservation in Vietnam. His work is concentrated
on the protection and conservation of Vietnams highly endangered
primate species. This includes surveys and field studies about
distribution and status of these taxa, studies about morphology,
behavior and molecular genetics, and practical support for the
protection of important primate habitats as well.
In 1993 he established the Endangered Primate Rescue Center for
captive breeding of several critically endangered and endangered
primate taxa with the goal of reintroduction to support dwindling
wild populations. The center serves also as an excellent facility
for studies of these species and as an educational spot to promote
the conservation idea to the public. A number of scientific papers
and books reflect his work and brought attention to the highly
threatened Vietnamese primates.
Tilo Nadler is editor of the Vietnamese Journal of Primatology,
member of the IUCN-Primate Specialist Group and the IUCN-Reintroduction
Specialist Group.
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Participative land-use planning for bonobo conservation in the
Maringa-Lopori-Wamba landscape, Democratic Republic of Congo (DRC)
Janet Nackoney
University of Maryland
The University of Maryland is working in joint partnership with
the African Wildlife Foundation and other institutions to support
land use planning in the Maringa-Lopori-Wamba (MLW) Landscape
located in northern Democratic Republic of Congo (DRC). It is one
of twelve Landscapes identified by the Congo Basin Forest
Partnership (CBFP) as an area of high priority for conservation
within the Congo Basin. It harbors many terrestrial mammals of
great conservation importance, including the bonobo ape (Pan
paniscus), listed as Endangered on the IUCN Red List of Endangered
Species. This presentation will demonstrate the use of
spatially-explicit datasets and models to guide a participatory
planning process to conserve the bonobo ape and simultaneously
maintain the livelihoods of local communities in the region. The
results of this work will contribute to the DRC's land-use
planning efforts for the future conservation and management of its
forests, and simultaneously inform a future national bonobo
conservation strategy.
The MLW landscape consists of a swath of land covering 74,000km2
in the northern Democratic Republic of the Congo. While the yearly
deforestation rate is still low (<0.1%) and most habitat
destruction (mainly caused by slash and burn agriculture) occurs
close to existing settled and cultivated areas, projections based
on the current tendencies of land use change show further
encroachment into forest blocks important for wildlife habitat and
connectivity. Using a combination of spatially-explicit modeling
and participatory approaches, we are working with local
communities to identify areas best suited for inclusion in a
proposed Rural Development Zone meant to constrain future
agricultural expansion and simultaneously meet conservation
objectives. This planning model considers a host of factors
influencing future agricultural suitability including assumptions
about future population growth and agricultural activity, the
influence of existing agricultural areas, human accessibility, and
locations of areas important for bonobos and general terrestrial
biodiversity.
To realize this model, are engaging in participatory mapping with
local communities to define agricultural boundaries at the village
level and initiating quid-pro-quo support for sustainable
livelihood development and agricultural intensification inside the
proposed Rural Development Zone. Through participative land use
planning and micro zoning, we hope to decrease deforestation and
forest degradation in remote areas which are important for habitat
and connectivity. This work will guide future zoning, planning,
and natural resource management activities in the MLW Landscape
and inform future strategies for bonobo conservation in DRC.
 Janet
Nackoney
Janet Nackoney has over ten years of experience working on
environmental conservation projects using Geographic Information
Systems (GIS) for analyzing ecosystem services, assessing patterns
of land use and land cover change, modeling habitat suitability,
and aiding in conservation planning and land management. She
specializes in applying these concepts to Africa in particular.
Ms. Nackoney is currently a Faculty Research Assistant and Ph.D.
student in the Department of Geography at the University of
Maryland. Her research consists of participative land-use planning
for sustainable development and conservation of forests in
northern Democratic Republic of the Congo. She recently spent
three months there working with local communities on participatory
mapping and data collection for future micro-zoning in order to
protect bonobo habitat and maintain wildlife connectivity between
existing protected areas. In addition, Ms. Nackoney has been using
remote sensing to conduct temporal change analyses and develop
predictive models of future land cover change in the study site.
Prior to her time at the University of Maryland, she served as a
GIS Associate at the World Resources Institute (WRI) in
Washington, DC, where she analyzed relationships between ecosystem
services and human well-being in Kenya.
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