A new article published in the Journal of Animal Ecology suggests that current measures to protect grasslands in the Qinghai-Tibetan Plateau are damaging the ecosystem and should be stopped.
The existing policy, introduced in 2000, calls for the eradication of small burrowing mammals. These include the mountain-dwelling herbivores, the plateau pika, and another small rodent, the zokor. Both are keystone species and are known as ecosystem engineers due to their modification of and impact on the environment.
The report’s authors say that the current extermination programs are not based on studies that considered the full effects of culling these rodents.
“The government agency’s policy of conducting large-scale animal culling campaigns each year is not a good approach,” says Professor Johannes Knops from the Health and Environmental Sciences department at Xi’an Jiaotong-Liverpool University (XJTLU) and corresponding author.
Professor Knops and the first author, Dr. Wenjin Li from the College of Ecology at Lanzhou University, propose replacing the eradication policy with a nature-based control strategy.
“Our research shows that using natural predators and other ecological factors to regulate burrowing mammal populations can be a more sustainable and effective approach to grassland management.”
The study has important implications for grassland management practices worldwide. Small burrowing mammals are common in grasslands, and their eradication can negatively impact ecosystem health and productivity.
A balancing act
The Qinghai-Tibetan Plateau grasslands play a crucial role in the quality of water flowing into major Asian rivers, including the Yangtze, Yellow, Lancang-Mekong, Indus and Ganges. Grassland degradation can also increase the chance of flooding events.
The campaign to permanently eradicate plateau pikas and zokors is part of Chinese government agencies’ efforts to protect the grasslands.
The policy is part of a nationwide initiative, the Returning Grazing Land to Grassland project, and is based on the assumption that the rodents cause damage to grasslands by consuming foliage and therefore compete with grazing livestock for food, and cause soil erosion.
However, the new study discusses the irrationality and consequences of this policy and reports that small burrowing mammals can actually help to prevent grassland degradation.
Professor Knops says, “If we look at the grasslands, we will find numerous plant species, and not all animals eat the same plants, so it is crucial to consider the entire food chain rather than killing all the small mammals.”
The authors also say that burrowing animals can increase plant diversity as they increase seed dispersion and light availability by consuming taller grasses. Their burrows provide refuges and habitats for other species and can help to decrease surface water runoff and soil erosion.
The researchers advise that the eradication policy needs to be reconsidered and revoked, as small burrowing mammals play crucial ecological roles in grassland management. They say that diminishing the rodent population disrupts ecosystem processes and reduces biodiversity.
The research also suggests that the current poisoning method used to eradicate small burrowing mammals has several overlooked adverse effects.
In the paper, the authors discuss the potential unintended consequences of using the high-cost and labor-intensive poisoning method to kill small mammals in grasslands. These include the development of resistance to poisons by target species and potential harm to non-target species.
Additionally, this policy can increase human-wildlife conflict by reducing natural predator populations and creating imbalances in the ecosystem.
Professor Knops explains, “It’s important to consider the knock-on effects of reducing the small burrowing mammal population. If there are fewer small mammals, there is less food for their natural predators, such as red foxes, steppe polecats, upland buzzards, brown bears and mountain weasels.
“Not only will these larger mammals start to look for alternative food sources and increasingly prey on livestock, causing more human-wildlife conflict, but their populations will also decrease.
“The eradication policy, therefore, causes the opposite effect to the one intended, as when the number of the pika and zokor’s natural predators is reduced, burrowing mammal populations can increase rapidly.
“This then requires more human control, which is costly and negatively impacts non-target species and the environment.”
The researchers suggest the goal to control burrowing mammal populations should not be totally eradicated but can be regulated with a nature-based control strategy that uses natural predators and other environmental factors such as their preferred plant species and the height of vegetation.
The report proposes measures such as providing nesting spaces for raptors and reducing the over-grazing of livestock on the grasslands. This allows the grass to grow and keeps the small mammal population at a manageable level, as they prefer shorter vegetation.
The authors argue that this approach is more effective and sustainable for long-term grassland management than traditional methods that rely heavily on human intervention and poisoning.
Professor Knops says, “By maintaining a stable, low density of burrowing mammals using natural predators and ecological factors, we can promote sustainable livestock grazing practices while also preserving biodiversity and reducing human-wildlife conflicts.”
Further research is needed to refine this approach and test its effectiveness in various grassland ecosystems. Still, the study’s findings offer important insights into the ecological roles of small burrowing mammals in grasslands and how their presence can benefit ecosystem health and productivity.
Li et al, Anchoring grassland sustainability with a nature-based small burrowing mammal control strategy, Journal of Animal Ecology (2023). DOI: 10.1111/1365-2656.13938
Xi’an jiaotong-Liverpool University
Stop eradication of small mammals to protect vital ecosystems, say scientists (2023, May 22)
retrieved 22 May 2023
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