A global assessment of functional biodiversity loss in the Anthropocene

人类世功能性生物多样性丧失的全球评估

• 批准号: 2600411
• 金额: --
• 依托单位: University of Reading
• 依托单位国家: 英国
• 项目类别: Studentship
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=studentship-2600411
• 关键词: global; assessment; functional; biodiversity; loss

Human activity has led to widespread loss of biodiversity globally. Changes in biodiversity have traditionally been quantified based on the disappearance, that is the extinction, of species, but this approach can overlook changes to other dimensions that describe the functional and evolutionary biodiversity on the planet. Functional biodiversity captures the variety of forms and functions (traits) among organisms that shape species interactions and ecosystem services, including those that directly benefit humans. For example, the shape of a bird's beak determines which seeds it can disperse, and thus, which plants will successfully reproduce and colonize new habitats.This PhD will contribute to address a real-world problem evaluating how human activities threaten and could further erode the global functional biodiversity of birds and mammals. Assessing how the Anthropocene is shaping the trait diversity of these two large and charismatic vertebrate groups will improve our understanding of changes in an important, but understudied dimension of biodiversity and help us anticipate potential disruptions of ecosystem processes that can occur with the loss of trait diversity. In particular, the project will address four main goals that will be developed as thesis chapters and manuscripts to be submitted for publication:1. Global characterization of the current mammalian and avian functional biodiversity. This chapter will provide a description of existing functional diversity and allow us to identify vulnerable forms and functions currently represented by one or few organisms as well as redundant or resilient traits found in many organisms and therefore less likely to disappear. 2. Mapping of the regional variation in functional biodiversity in mammals and birds. Describing regional variation will reveal hotspots and at-risk regions with high and limited and/or threatened biodiversity respectively. This chapter will also test the role of different environmental and anthropogenic factors (e.g, climate and land use) in shaping observed regional variation. 3. Global predictions of future mammalian and avian functional biodiversity loss. This chapter will explore scenarios of future extinction to quantify potential losses of diversity and how these may disrupt ecosystem functions that depend on that diversity.4. Assessment of the loss of functional biodiversity associated with different human activities (eg, hunting, deforestation). This chapter will explore if different activities affect distinct forms and functions to partition biodiversity vulnerability across threats and also identify the most damaging activities. This chapter will also forecast potential losses of biodiversity exploring scenarios of future human development.

Human activity has led to widespread loss of biodiversity globally. Changes in biodiversity have traditionally been quantified based on the disappearance, that is the extinction, of species, but this approach can overlook changes to other dimensions that describe the functional and evolutionary biodiversity on the planet. Functional biodiversity captures the variety of forms and functions (traits) among organisms that shape species interactions and ecosystem services, including those that directly benefit humans. For example, the shape of a bird's beak determines which seeds it can disperse, and thus, which plants will successfully reproduce and colonize new habitats.This PhD will contribute to address a real-world problem evaluating how human activities threaten and could further erode the global functional biodiversity of birds and mammals. Assessing how the Anthropocene is shaping the trait diversity of these two large and charismatic vertebrate groups will improve our understanding of changes in an important, but understudied dimension of biodiversity and help us anticipate potential disruptions of ecosystem processes that can occur with the loss of trait diversity. In particular, the project will address four main goals that will be developed as thesis chapters and manuscripts to be submitted for publication:1. Global characterization of the current mammalian and avian functional biodiversity. This chapter will provide a description of existing functional diversity and allow us to identify vulnerable forms and functions currently represented by one or few organisms as well as redundant or resilient traits found in many organisms and therefore less likely to disappear. 2. Mapping of the regional variation in functional biodiversity in mammals and birds. Describing regional variation will reveal hotspots and at-risk regions with high and limited and/or threatened biodiversity respectively. This chapter will also test the role of different environmental and anthropogenic factors (e.g, climate and land use) in shaping observed regional variation. 3. Global predictions of future mammalian and avian functional biodiversity loss. This chapter will explore scenarios of future extinction to quantify potential losses of diversity and how these may disrupt ecosystem functions that depend on that diversity.4. Assessment of the loss of functional biodiversity associated with different human activities (eg, hunting, deforestation). This chapter will explore if different activities affect distinct forms and functions to partition biodiversity vulnerability across threats and also identify the most damaging activities. This chapter will also forecast potential losses of biodiversity exploring scenarios of future human development.