What remains to be discovered: A global assessment of tree species inventory completeness

IF 4.6 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Jariya Chanachai, Ernest F. Asamoah, Joseph M. Maina, Peter D. Wilson, David A. Nipperess, Manuel Esperon-Rodriguez, Linda J. Beaumont
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引用次数: 0

Abstract

Aim

Recent unprecedented efforts to digitise and mobilise biodiversity data have resulted in the generation of ‘biodiversity big data’, enabling ecological research at scales previously not possible. However, gaps, biases and uncertainties in these data influence analytical outcomes and the validity of scientific research and conservation actions. Here, we estimated tree species inventory completeness globally and identified where future surveys should focus to maximise regional inventories.

Location

Global.

Methods

We analysed spatial patterns in sampling effort of tree species occurrence records from the Global Biodiversity and Information Facility (GBIF) and estimated global tree species inventory completeness for 100 × 100 km grid cells (sampling units) and ecoregions. We also identified forested areas for future botanical exploration, by examining the spatial overlap between inventory completeness, remaining natural habitat and protected areas and degrees of forest modification by anthropogenic pressure (forest integrity).

Results

Spatial patterns in sampling effort and tree species inventory completeness were unevenly distributed around the world. Only 35% of ecoregions and 18% of sampling units can be considered well surveyed, most of which were concentrated in the Global North, including Europe, North America and Australia. Large areas in species-rich tropical regions, especially in Southeast Asia, remained poorly documented. Moreover, our results showed that many areas with low inventory completeness overlapped with ecoregions retaining less than 50% of natural habitat and protected land area, as well as sampling units with low forest integrity.

Main Conclusions

Due to limitations in biodiversity data, simply sampling more will not necessarily lead to increasing knowledge. We illustrated how gaps in these data can be used to improve existing knowledge by identifying priority areas for future surveys. With ongoing anthropogenic impacts and escalating rates of biodiversity loss, limited resources should be allocated to strategically survey regions likely to yield new knowledge and improve biodiversity representativeness.

Abstract Image

还有什么有待发现?全球树种清单完整性评估
目的最近在生物多样性数据数字化和动员方面做出了前所未有的努力,产生了 "生物多样性大数据",使生态研究达到了以前不可能达到的规模。然而,这些数据中存在的差距、偏差和不确定性影响了分析结果以及科学研究和保护行动的有效性。在此,我们估算了全球树种清单的完整性,并确定了未来调查的重点,以最大限度地提高区域清单的完整性。地点全球方法我们分析了全球生物多样性和信息基金(GBIF)中树种出现记录采样工作的空间模式,并估算了 100 × 100 km 网格单元(采样单位)和生态区域的全球树种清单完整性。我们还通过研究清单完整性、剩余自然栖息地和保护区以及人为压力对森林的改造程度(森林完整性)之间的空间重叠,确定了未来植物学探索的森林地区。只有 35% 的生态区和 18% 的取样单位可被视为调查充分,其中大部分集中在全球北部,包括欧洲、北美和澳大利亚。物种丰富的热带地区,尤其是东南亚的大片区域,仍然没有得到充分的记录。此外,我们的结果表明,许多清单完整性较低的地区与自然栖息地和受保护土地面积不足 50%的生态区域以及森林完整性较低的采样单元重叠。我们说明了如何利用这些数据中的差距,通过确定未来调查的优先领域来完善现有知识。随着人类活动的持续影响和生物多样性丧失率的不断上升,应将有限的资源分配到可能产生新知识和提高生物多样性代表性的战略调查区域。
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来源期刊
Diversity and Distributions
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.
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