对狩猎迹象的长期监测揭示了未受保护的非洲雨林中狩猎活动的复杂时空模式

IF 4.6 2区环境科学与生态学 Q1 BIODIVERSITY CONSERVATION

Diversity and Distributions Pub Date : 2025-01-20 DOI:10.1111/ddi.13951

Vianny Rodel Vouffo Nguimdo, Ekwoge Enang Abwe, Bethan J. Morgan, Marcel Eyong Ketchen, Daniel Mbouombouo Mfossa, Abwe Enang Abwe, Nelson Ekole Betobe, Robin C. Whytock, Mathias W. Tobler, Johannes Kamp, Niko Balkenhol, Matthias Waltert, Mahmood Soofi

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引用次数: 0

摘要

目的许多哺乳动物种群的长期生存取决于我们如何有效地减轻不可持续的狩猎活动所带来的威胁。然而，狩猎活动往往是隐秘的，尤其是在未受保护的森林中。在此，我们研究了狩猎痕迹是否有助于了解在未受保护的非洲雨林中狩猎活动的时空动态，并探讨了景观特征如何预测各种狩猎指标。地点非洲中部喀麦隆埃博森林。方法我们从 2008 年到 2023 年在埃博森林的 23 条平行考察线上系统地记录了狩猎痕迹（如猎枪子弹、铁丝网、直接目击）。我们将狩猎数据和空间协变量（如海拔、与村庄的距离）分配到 1 × 1 km 的网格单元中，并应用广义线性混合模型来预测这些协变量对狩猎的影响。结果我们发现，狩猎在整个埃博森林都很普遍。每个狩猎标志的最佳拟合模型差别很大。从 2016 年到 2023 年，猎枪子弹和所有狩猎迹象的总和显著增加，并且沿着村庄-距离梯度呈非线性变化。我们发现狩猎趋势沿着人为梯度逐渐反转；在 2016 年至 2018 年期间，铁丝网随着距离公路的增加而减少，但从 2021 年开始，铁丝网沿着公路-距离梯度增加。沿河流-距离梯度的铁丝网捕猎也呈现出类似的模式。我们的研究结果还揭示了猎枪狩猎和捕猎在海拔梯度上的差异；海拔对猎枪子弹的影响是正向的，而对铁丝网的影响是负向的。随着地形崎岖程度的增加，狩猎痕迹和路径明显减少。主要结论通过长期监测数据，我们展示了狩猎模式是如何随着人类和地貌特征的变化而动态变化的。我们还展示了沿人类影响梯度的复杂狩猎模式，因此对使用代用指标（如与人类居住区的距离，甚至地形）来解释狩猎压力提出了质疑。总之，我们的研究表明，狩猎痕迹数据可以揭示狩猎的时空模式，这对于评估保护干预措施的有效性和指导有限保护资源的优先排序至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Long-Term Monitoring of Hunting Signs Reveals Complex Spatiotemporal Patterns of Hunting Activities in an Unprotected African Rainforest

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Long-Term Monitoring of Hunting Signs Reveals Complex Spatiotemporal Patterns of Hunting Activities in an Unprotected African Rainforest

Aim

The long-term survival of many mammal populations relies on how effectively we mitigate the threat from unsustainable hunting. Yet, hunting activities are often cryptic, especially in unprotected forests. Here, we investigate whether hunting signs can help understand the spatiotemporal dynamics of hunting activities in an unprotected African rainforest and examine how landscape characteristics predict various indicators of hunting.

Location

Ebo forest, Cameroon, Central Africa.

Methods

We recorded hunting signs (e.g., shotgun cartridges, wire snares, direct sightings) systematically on 23 parallel recce lines across the Ebo forest from 2008 to 2023. We assigned hunting data and spatial covariates (e.g., elevation, distance to village) to 1 × 1 km grid cells and applied generalised linear mixed models to predict the effects of these covariates on hunting.

Results

We found that hunting was commonplace across the entire Ebo forest. The best-fitting models for each hunting sign differed considerably. Shotgun cartridges and all hunting signs combined increased significantly from 2016 to 2023 and varied non-linearly along the village-distance gradient. We found a progressive inversion of hunting trends along the anthropogenic gradient; between 2016 and 2018, wire snares declined with the distance to road but from 2021, they increased along the road-distance gradient. Wire snares showed a similar pattern along the river-distance gradient. Our results also revealed differences between shotgun hunting and snaring along the altitudinal gradient; the effect of elevation was positive on shotgun cartridges and negative on wire snares. Hunting signs and trails decreased significantly with increasing terrain ruggedness.

Main Conclusions

Using long-term monitoring data, we show how hunting patterns change dynamically with respect to human and landscape-related features. We also demonstrate complex hunting patterns along the gradient of human influence, therefore questioning the use of proxies such as the distance to human settlements and even topography to account for hunting pressure. Overall, we show that hunting sign data can reveal the spatiotemporal patterns of hunting, crucial in evaluating the effectiveness of conservation interventions and guiding the prioritisation of limited conservation resources.

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来源期刊

Diversity and Distributions 环境科学-生态学

CiteScore

8.90

自引率

4.30%

发文量

195

审稿时长

8-16 weeks

期刊介绍： Diversity and Distributions is a journal of conservation biogeography. We publish papers that deal with the application of biogeographical principles, theories, and analyses (being those concerned with the distributional dynamics of taxa and assemblages) to problems concerning the conservation of biodiversity. We no longer consider papers the sole aim of which is to describe or analyze patterns of biodiversity or to elucidate processes that generate biodiversity.