Study finds protected areas for elephants work best if they are connected
Phys.org
January 5, 2023
See link https://www.science.org/doi/10.1126/sciadv.adk2896 for original
research study.
Conservation measures have successfully stopped declines in the African
savanna elephant population across southern Africa, but the pattern varies
locally, according to a new study.
The evidence suggests that the long-term solution to elephant survival
requires not only that areas are protected but that they are also connected
to allow populations to stabilize naturally, an international research team
says.
Their study, published on January 5 in Science Advances, collected survey
estimates and calculated growth rates for more than 100 elephant
populations in southern Africa between 1995 and 2020, accounting for an
estimated 70% of the global savanna elephant population. The published
paper is titled, "Protecting and connecting landscapes stabilises
populations of the endangered savannah elephant."
"This is the most comprehensive analysis of growth rates for any large
mammal population in the world," said co-author Rob Guldemond, director of
the Conservation Ecological Research Unit (CERU) at the University of
Pretoria, in South Africa.
Overall, the survey's results are positive. There are the same number of
elephants now as there were 25 years ago, a rare conservation win at a time
when the planet is rapidly losing biodiversity. However, the pattern is not
consistent across regions. Some areas, such as south Tanzania, eastern
Zambia, and northern Zimbabwe, experienced severe declines due to illegal
ivory poaching. In contrast, populations in other regions like north
Botswana are booming.
"Unchecked growth isn't necessarily a good thing, however," says study
co-author Stuart Pimm, the Doris Duke Professor of Conservation at Duke
University in North Carolina. "Rapidly increasing populations can outgrow
and damage their local environment and prove hard to manage—introducing a
threat to their long-term stability," Pimm says.
In addition to documenting local growth rates, the team also looked at the
features of the local populations to identify what makes them stable, that
is neither growing nor declining.
Elephant populations in well-protected but isolated parks, sometimes called
"fortress conservation," grow rapidly in the absence of threats but are
unsustainable in the long term. These elephants will likely need future
conservation interventions, such as translocation or birth control, which
are both costly and intensive endeavors.
The team found that the most stable populations occur in large, core areas
that are surrounded by buffer zones. The core areas are defined by their
strong levels of environmental protection and minimal human impact, whereas
the buffers allow some activities such as sustainable farming, forestry, or
trophy hunting. Unlike the insular fortresses, core areas are connected to
other parks, allowing herds to move naturally.
"What's crucial is that you need a mix of areas with more stable core
populations linked to more variable buffer areas," said lead author Ryan
Huang, a Duke Ph.D. now doing postdoctoral research at CERU.
"These buffers absorb immigrants when core populations get too high, but
also provide escape routes when elephants face poor environmental
conditions or other threats such as poaching," Huang said.
Connecting protected areas means elephants can freely move in and out. This
allows a natural equilibrium to occur without human intervention, sparing
conservationists from using their limited resources to maintain balance.
"Calling for connecting parks isn't something new. Many have done so,"
Huang said. "But surprisingly, there has not been a lot of published
evidence of its effectiveness so far. This study helps quantify why this
works."
"Connecting protected areas is essential for the survival of African
savanna elephants and many other animal and plant species," said Celesté
Maré, co-author and doctoral student at Aarhus University in Denmark.
"Populations with more options for moving around are healthier and more
stable, which is important given an uncertain future from climate change."
https://phys.org/news/2024-01-areas-elephants.html
https://www.lifetechnology.com/blogs/life-technology-science-news/study-finds-protected-areas-for-elephants-work-best-if-they-are-connected
Study finds protected areas for elephants work best if they are connected
Phys.org
January 5, 2023
See link <https://www.science.org/doi/10.1126/sciadv.adk2896> for original
research study.
Conservation measures have successfully stopped declines in the African
savanna elephant population across southern Africa, but the pattern varies
locally, according to a new study.
The evidence suggests that the long-term solution to elephant survival
requires not only that areas are protected but that they are also connected
to allow populations to stabilize naturally, an international research team
says.
Their study, published on January 5 in Science Advances, collected survey
estimates and calculated growth rates for more than 100 elephant
populations in southern Africa between 1995 and 2020, accounting for an
estimated 70% of the global savanna elephant population. The published
paper is titled, "Protecting and connecting landscapes stabilises
populations of the endangered savannah elephant."
"This is the most comprehensive analysis of growth rates for any large
mammal population in the world," said co-author Rob Guldemond, director of
the Conservation Ecological Research Unit (CERU) at the University of
Pretoria, in South Africa.
Overall, the survey's results are positive. There are the same number of
elephants now as there were 25 years ago, a rare conservation win at a time
when the planet is rapidly losing biodiversity. However, the pattern is not
consistent across regions. Some areas, such as south Tanzania, eastern
Zambia, and northern Zimbabwe, experienced severe declines due to illegal
ivory poaching. In contrast, populations in other regions like north
Botswana are booming.
"Unchecked growth isn't necessarily a good thing, however," says study
co-author Stuart Pimm, the Doris Duke Professor of Conservation at Duke
University in North Carolina. "Rapidly increasing populations can outgrow
and damage their local environment and prove hard to manage—introducing a
threat to their long-term stability," Pimm says.
In addition to documenting local growth rates, the team also looked at the
features of the local populations to identify what makes them stable, that
is neither growing nor declining.
Elephant populations in well-protected but isolated parks, sometimes called
"fortress conservation," grow rapidly in the absence of threats but are
unsustainable in the long term. These elephants will likely need future
conservation interventions, such as translocation or birth control, which
are both costly and intensive endeavors.
The team found that the most stable populations occur in large, core areas
that are surrounded by buffer zones. The core areas are defined by their
strong levels of environmental protection and minimal human impact, whereas
the buffers allow some activities such as sustainable farming, forestry, or
trophy hunting. Unlike the insular fortresses, core areas are connected to
other parks, allowing herds to move naturally.
"What's crucial is that you need a mix of areas with more stable core
populations linked to more variable buffer areas," said lead author Ryan
Huang, a Duke Ph.D. now doing postdoctoral research at CERU.
"These buffers absorb immigrants when core populations get too high, but
also provide escape routes when elephants face poor environmental
conditions or other threats such as poaching," Huang said.
Connecting protected areas means elephants can freely move in and out. This
allows a natural equilibrium to occur without human intervention, sparing
conservationists from using their limited resources to maintain balance.
"Calling for connecting parks isn't something new. Many have done so,"
Huang said. "But surprisingly, there has not been a lot of published
evidence of its effectiveness so far. This study helps quantify why this
works."
"Connecting protected areas is essential for the survival of African
savanna elephants and many other animal and plant species," said Celesté
Maré, co-author and doctoral student at Aarhus University in Denmark.
"Populations with more options for moving around are healthier and more
stable, which is important given an uncertain future from climate change."
https://phys.org/news/2024-01-areas-elephants.html
https://www.lifetechnology.com/blogs/life-technology-science-news/study-finds-protected-areas-for-elephants-work-best-if-they-are-connected
