|
|
Society for Conservation Biology 16th Annual Meeting July 14-July 19 2002
co-hosted by DICE and the British Ecological Society
Abstracts for Planning and Reserve Design
Session Four
Thursday 18th
July, 10.15 - 12.15, Grimond Lecture Theatre 1
Chair: Glenn Plumb
|
Conference Home Page | Session
timetable
(BLOCK CAPITALS indicate the presenting author)
10.15 - 10.30
TOWNSEND, PATRICIA A. and Douglas J. Levey. Department of Zoology, University
of Florida, Gainesville, FL 32611, USA, <ptownsend@zoo.ufl.edu> (PT, DJ).
EFFECT OF HABITAT CORRIDORS ON PLANT-POLLINATOR INTERACTIONS
A central tenet in conservation biology is that the effects of fragmentation can
be diminished if fragments are joined by a corridor connecting two or more fragments.
The key assumption is that corridors increase movement rates of organisms between
isolated fragments. This movement may be especially important for maintaining viable
populations of insect-pollinated plants. I tested the hypothesis that corridors increase
movement of insect pollinators and thereby increase pollen transfer of both butterfly-pollinated
and hymenopteran-pollinated flowers (Lantana camara and Rudbeckia hirta,
respectively). The hypothesis was tested in a large-scale experiment in which 40
one ha fragments of early successional habitat were created in a matrix of forest.
Some of the fragments were connected to another by a corridor, and others were not
connected. Fluorescent powder was used to track pollen transfer. For Lantana
55% of the flowers received pollen from another fragment in connected fragments while
only 25% of the flowers received pollen in unconnected fragments (p<0.0001). For
Rudbeckia 29% of the flowers received pollen from another fragment in connected
fragments while only 12% of the flowers received pollen in unconnected fragments
(p<0.0001). These results suggest that corridors may be important to maintaining
plant populations in fragmented landscapes.
10.30 - 10.45
KELLY, DANIEL S., Melissa Songer, Chris Wemmer, and P. Leimgruber. Conservation
and Research Center, Smithsonian National Zoological Park, Front Royal, VA 22630,
USA, <kellyd@crc.si.edu>
EFFECTS OF AGE AND HUMAN FOOTPRINT ON PROTECTED AREAS IN MYANMAR
The effectiveness of protected areas as a conservation tool has been hotly debated.
Myanmar is the country with the highest remaining closed forest cover in all of mainland
SE Asia. While development pressures are increasing, Myanmar has also increased the
amount of protected area from 2% to over 5%. Two determinants of protection effectiveness
are age of the protected area and the degree of human development pressures in surrounding
areas, the human footprint. We used protected areas information and multi-year satellite
imagery to determine the effect of these variables on Myanmar’s protected areas.
As the distance from areas with major human development increased, protected areas
experienced little to no conversion of land cover. Age of protected areas was only
important in connection with proximity to human development. Many of Myanmar’s largest
protected areas have great potential to preserve the region’s biodiversity, but lack
of international aid for conservation may hamper the establishment, management, and
integration of its protected areas system. Protected areas in Myanmar’s developed
agricultural settings are in dire need of assistance to develop sustainable use without
degradation and destruction.
10.45 - 11.00
MIQUELLE, DALE, and Andre Murzin. Wildlife Conservation Society 185th St. and
Southern Bld., Bronx, NY 10460-1099, <dalemiq@online.marine.su>,
Pacific Institute of Geography, Far Eastern Branch of Russian Academy of Sciences,
Vladivostok, Primorski Krai Russia.
SPATIAL DISTRIBUTION OF FAR EASTERN LEOPARD IN SOUTHWEST PRIMORSKI KRAI, AND RECOMMENDATIONS
FOR THEIR CONSERVATION
We attempt to define spatial distribution and habitat requirements for the single
remaining population of endangered Far Eastern Leopards (Panthera pardus orientalis)
in Southwest Primorski Krai in the Russian Far East. Using data obtained from 4 recent
surveys, we developed a GIS database with 16 natural and anthropogenic parameters
assigned to 1707 topographic cells that encompassed all known leopard habitat, and
conducted a logistic regression and univariate analyses to assess which factors explained
leopard presence/absence. Increasing distance from road and landuse status were significantly
human factors that helped explain leopard distribution. Elevation, habitat type,
and presence of tigers also partially explained presence/absence patterns. A habitat
suitability map generated from the consequent model provides some suggestions where
conservation actions are needed. Based on the results of this analysis, we recommend
landuse reforms for specific components of the landscape in Southwest Primorski Krai,
and closer management coordination with potential leopard habitat in adjacent lands
in China.
11.00 - 11.15
Miquelle, Dale, Endi Zhang, LINDA KRUEGER, and Xiaochen Yu. Wildlife Conservation
Society, 185th St. and Southern Blvd., Bronx, NY 10460-1099, USA, <lkrueger@wcs.org>
(DM, EZ, LK), Heilongjiang Wildlife Institute Heilongjiang Wildlife Institute, Harbin,
Heilongjiang, People’s Republic of China (XY).
MANAGING TRANSBOUNDARY POPULATIONS OF AMUR TIGERS
Formerly distributed across Manchuria, the Korean Peninsula and Russian Far East,
recent surveys confirm that at least 95% of the remaining Amur tigers, Panthera
tigris altaica, are now found in two subpopulations concentrated in the Russian
Far East. Extinction of tigers in Northeast China is apparently prevented only due
to irregular immigration of tigers across the Sino-Russian border. Despite imminent
extinction, recovery of tigers in Northeast China is possible via natural emigration
from Russia, if steps are taken to protect habitat and increase prey populations.
We propose a land use plan that manages tigers in two subpopulations — The Sikhote-Alin
— Wandashan population, and the Tumen River population. We argue that long-term viability
of the Tumen River population tiger population, as well as Far Eastern leopards,
Panthera pardus orientalis, is dependent on steps taken on the Chinese side
of the border. Creation of protected "core" areas, designation of "tiger
management zones" and creation of ecological corridors can significantly increase
population size, provide linkages between isolated habitat tracts, and save the last
potential corridor linking Russian and Chinese habitat to potential habitat in DPR
Korea. Our recommendations have already resulted in creation of the Hunchun Tiger
Leopard Reserve along the Sino-Russian border.
11.15 - 11.30
BLAKE, STEPHEN. The Wildlife Conservation Society, 185th Street and Southern
Boulevard, Bronx, New York, 10460, USA, <Steveblake@worldnet.att.net>.
CONSERVING FOREST ELEPHANTS: ECOLOGY, LOGGING, AND ROAD DEVELOPMENT IN CENTRAL AFRICA
Forest elephants, perhaps a distinct species, once existed throughout Africa’s equatorial
forest, but now occur only where people do not. Humans live along roads and navigable
rivers, which restricts elephants to the depths of the forest. In the remote Nouabalé-Ndoki
National Park, northern Congo, the ecological determinants of elephant distribution
and ranging were investigated, land use change, particularly logging and associated
road building, was documented, and their implications for elephant conservation were
assessed. GPS telemetry and dung surveys revealed that forest elephants disperse
100+ species of seeds, and roam over areas of at least ca. 2000km2 searching for
fruit, minerals and browse. Ranging is severely disrupted by human activity. The
few isolated, intact forest blocks where elephants remain abundant and free-ranging,
also contain valuable timber, and are lucrative targets for the logging industry.
The entirety of Congo’s exploitable forest will be selectively logged in coming decades,
and road building will reduce the area of the Ndoki Forest more than 30km from a
road, from over 25,000km2 in 1990 to just 264km2 by 2003. Road construction which
maximises socio-economic gain while minimising ecological impact is expensive, but
critical if viable elephant populations are to be maintained in central Africa.
11.30 - 11.45
MUORIA, PAUL, Nicholas Oguge, Jeanne Altmann and Ian Gordon. Institute of Primate
Research, National Museums of Kenya, P.O. Box 24481 00502, Karen, Kenya, <paulmuoria@yahoo.com>
(PM), Department of Zoology, Kenyatta University, P.O. Box 43844, Nairobi, Kenya
(NO), Department of Ecology and Evolutionary Biology, Princeton University, Guyot
Hall, 401 Princeton 08544-1003, USA (JA), National Museums of Kenya and Arabuko-Sokoke
Forest Management Team, P. O. Box 302, Watamu, Kenya (IG).
AN ECOLOGICAL CORRELATE TO CROP RAIDING BY ELEPHANTS AND YELLOW BABOONS IN ARABUKO-SOKOKE
FOREST, KENYA
A major threat to conservation of the Arabuko-Sokoke Forest, largest remaining coastal
forest in East Africa, is crop raiding-driven human-wildlife conflict. This forest
in eastern Kenya is an important conservation area due to high diversity of flora
and fauna, some of which are endangered or endemic. We conducted a study to determine
ecological correlates to crop raiding by elephants and yellow baboons between November
1995 and October 1997. During this period, the major crop raiding species included
elephants (Loxodonta africana africana), yellow baboons (Papio cynocephalus),
sykes monkeys (Cercopithecus mitis), vervet monkeys (C. aethiops),
bush pigs (Potamochoerus larvatus) and porcupines (Hystrix cristata.).
Spatial variations in crop raiding by elephants were associated with water availability
(H=25.424, P < 0.001, df = 3) but not for baboons (H=1.002, df = 3, n.s.).
Temporally, crop raiding was more intense in areas of water availability than by
chance alone both for elephants (rs = 0.648, P < 0.01, n =24) and baboons
(rs = 0.505, P < 0.05, n =24). Since this forest has no permanent water
sources within it, provision of water all year round and a corridor to the near-by
Dida-Rare River may provide a long-term mitigation to the local elephant menace.
11.45 - 12.00
MAIN, MARTIN, and Bruce Coblentz. University of Florida, Southwest Florida Research
& Education Center, 2686 State Road 29 North, Immokalee, FL 34142, USA, <mbma@gnv.ifas.ufl.edu>
(MM), Department of Fisheries and Wildlife, Nash Hall 104, Oregon State University,
Corvallis, OR 97331, USA (BC).
SEX DIFFERENCES IN RESOURCE USE: IMPLICATIONS FOR CONSERVATION
Essential to the goal of conserving biodiversity is an understanding of the behaviour
and ecology of those species we hope to conserve. Aspects of behaviour and ecology
often overlooked, however, are the differences that often exist between sexes within
a species. Among many taxa, these differences result in segregation of the sexes
during non-breeding periods. Sexual segregation describes the behavioural pattern
where males and females may use different habitats, geographical ranges, and patterns
of resource use, all of which have implications for conservation planning. The impetus
for sexual segregation is inherently linked to temporal differences in resource needs
and reproductive strategies of the two sexes, with differences in behaviour being
fine-tuned by tradeoffs between security and foraging opportunities. This presentation
will briefly describe the behavioural pattern known as sexual segregation and provide
examples of different taxa that segregate by sex and demonstrate sex differences
in habitat use. Using ungulates as case studies, specific examples of the conservation
implications of sexual segregation will be provided in respect to reserve design,
impacts on native plant and wildlife communities, and sex-specific management strategies
designed to achieve broader conservation goals.
12.00 - 12.15
PLUMB, GLENN and Wayne Brewster. Yellowstone Center for Resources, POB 168, Yellowstone
National Park, WY 82190, USA, <glenn_plumb@nps.gov> (GE, WB).
CONSERVATION MANAGEMENT AT YELLOWSTONE NATIONAL PARK: ARE BISON REALLY WILDLIFE?
Yellowstone National Park holds a special place in bison, Bison bison, stewardship;
perhaps the first time the United States Federal government launched a conservation
effort to save a species from extinction in the wild. Yet, at the beginning of the
21st century, only 2% of bison in North America remain in a wild free-ranging condition.
Private sector "game ranching" of bison has greatly eroded the public’s
understanding of bison as wildlife. In the United States, the bison is the only native
ungulate species where the legal classification has been changed from wildlife to
livestock. Hence, bison have been virtually absent from the evolution of wildlife
principles, hunting ethics, conservation biology, or the ecological relationships
of free-ranging populations. The odyssey of the Yellowstone bison speaks loudly to
the challenges of maintaining native ecosystems in the face of increasing pressures
from human systems. In the 21st century, bison will either regain a legitimate place
among North American wildlife or will be consigned as a footnote of history. Here
we report on the new science-based conservation and risk management strategies for
the Yellowstone bison and creative ways to enhance opportunities for conservation
management for wild bison.
The SCB2002 pages are maintained by Christine Eagle
email: C.M.Eagle@ukc.ac.uk
Conference email: scb2002@ukc.ac.uk
Last updated: 30.06.02