This volume adds significantly to the knowledge base to show the link between biodiversity and health in a changing climate. This book would not have been possible without the shared expertise and insight into the various interrelated issues on the subject of biodiversity and health in the face of climate change.

Editors

Aletta Bonn Professor of Ecosystem Services at Friedrich Schiller University Jena in Germany and Head of the Department of Ecosystem Services at the Helmholtz Center for Environmental Research Germany (UFZ) and the German Center for Integrative Biodiversity Research (iDiv). With a working background at the interface of science and policy in the UK and Germany, her research focuses on ecosystem services, biodiversity and human well-being, participatory conservation and citizen science.

Contributors

Raymond De Young Associate Professor of Environmental Psychology and Planning at the University of Michigan, USA. Matthew Dennis Lecturer in Geographic Information Science in Geography at the University of Manchester, UK.

Biodiversity and Health in the Face of Climate Change: Challenges,

Background

The work on NBS demonstrates the importance of green spaces for climate change adaptation and mitigation (Kabisch et al. 2017). Biodiversity underpins ecosystem services essential to human health and well-being (Cardinale et al. 2012).

Scope of the Book

Specifically, this book identifies not only the contribution of biodiversity to physical health, but also to mental and spiritual health and well-being in the face of climate change. The scope of this book is about the contribution of biodiversity to physical, mental and spiritual health and well-being in the face of climate change.

Structure and Contents of the Book

• Part I: Biodiversity and Physical Health
• Part II: Biodiversity, Mental Health and Spiritual Well-Being
• Part III: Implications of the Biodiversity and Health Relationship
• Part IV: Planning and Managing Urban Green Spaces for Biodiversity and Health in a Changing Climate

The final chapters review the evidence for the impact of biodiversity on mental health and spiritual well-being. To complement this chapter, Ruth Hunter and co-authors review the effectiveness of interventions in urban green spaces to improve health and biodiversity and provide recommendations for research, policy and practice.

Lovell R, Wheeler BW, Higgins SL, Irvine KN, Depledge MH (2014) A systematic review of the health and well-being benefits of biodiverse environments. Watts N, Adger WN, Agnolucci P et al (2015) Health and climate change: policy responses to protect public health.

Biodiversity and Physical Health

Biodiversity, Physical Health and Climate Change: A Synthesis of Recent Evidence

Introduction

Biodiversity is considered one of the fundamental requirements for the beneficial functioning of ecosystems for human health and well-being and is included as such in focused policy arenas (Lovell et al. 2014; Sandifer et al. 2015). Third, we provide an overview of some of the important ways climate change affects physical health and the natural environment, including biodiversity (see section 2.4).

Fig. 2.1 Determinants of human health and well-being (Barton and Grant 2006, based on Dahlgren and Whitehead 1991), including biodiversity at the human scale (after Garrett 2015, Ruokolainen et al

Nature’s Contributions to Physical Health

Some of the published evidence relates to effects seen as a result of simply being in 'natural' spaces (Haluza et al. 2014). Brassica vegetables are associated with anti-cancer properties as well as a number of other health benefits (Moreno et al. 2006).

Fig. 2.2 Pathways for physiological outcomes associated with ‘exposure to natural environments’

Biodiversity and Physical Health

In turn, biodiversity ultimately affects human health by making agricultural systems inherently more resilient and less prone to major losses (Dobson et al. 2006). Evidence also suggests a link between biodiversity and the productivity of systems for human use, for example, more biodiverse forests and fisheries are more productive for fuel and food (Harrison et al. 2014).

Fig. 2.3 The inter-relationships between human and ecological health as expressed through the exposome concept (top) and the pathways to reductions in physical health through dysbiosis (bot-tom) (Renz et al

Climate Change and Physical Health

Although changes in influenza peaks and seasons have been observed, climatic and other determinants are currently uncertain (Caini et al. 2018). The stagnation events associated with air quality episodes may also be associated with summer heat waves and thus have cumulative outcomes for human health (Doherty et al. 2017).

Fig. 2.5 Pathways through which climate change can influence human health and well-being, including though ecosystem-related effects

Exploring a Subset of Interactions Through an Urban Case Study

According to the central estimate of the UKCIP09 projections (high emissions scenario), the agglomeration could also experience a 3.4°C (2.4°C) increase in the temperature of the hottest summer day (night), with this highest increases are expected in the coming years. upland Pennine ridge (Cavan 2010). At least one industrial fire occurred in Rochdale, northeast of the conurbation.

Fig. 2.6 Peak daily concentrations of air pollutants monitored for human health (top) and maxima and minima air temperatures  (bottom)

Conclusion

Uncertainties remain about some of the evidence for the link between biodiversity, human physical health and climate change. Lovell R, Wheeler BW, Higgins SL, Irvine KN, Depledge MH (2014) A systematic review of health and well-being.

Climate Change and Pollen Allergies

• Introduction
• Clinical Implications of Pollen-induced Respiratory Allergy
• Allergenic Pollen and Epidemiology
• Adjuvant Factors from Pollen and Impact of Environmental Factors
• New Pollen Allergies: The Case of Ragweed
• Climate Change Effects
• Pollen Information Services
• Conclusions and Future Challenges

Gilles S, Fekete A, Zhang X et al (2011) Pollen metabolome analysis reveals adenosine as an important regulator of dendritic cell-primed T(H) cell responses. Troise C, Voltolini S, Delbono G et al (1992) Allergy to Betulaceae and Corylaceae pollen in a Mediterranean region (Genova, Italy).

Table 3.1 Epidemiological studies on the allergenic properties of airborne pollen from different plant taxa

Vector-Borne Diseases

Triple Vulnerability: Climate Change, Biodiversity and Vector-Borne Diseases

Climate and biodiversity change has health impacts that vary widely from direct effects such as progressive temperature increases from global warming, flooding or heat waves due to increased climate variability and extreme weather events, to indirect effects such as changes in ecosystem services, food productivity or species distributions (Montag et al. 2017). VBDs are clearly highly intertwined with climate change and the extent of biodiversity (Engering et al. 2013).

Table 4.1Main vectors and diseases they transmit MosquitoesTicksSandfliesTriatomine bugsTsetse fliesFleasBlack fliesAquatic snailsLice AedesAnophelesCulex

Disease-Transmitting Mosquitoes and Ticks

• Influence of Temperature on Vector Mosquitoes and Associated Pathogens
• Distributional Changes of Mosquito Vector Species
• Distributional Changes of Ticks in Europe

In arboviruses, temperature affects plaque growth (Jia et al. 2007) and replication rate (Kilpatrick et al. 2008). There are objective reasons why climate change affects the distribution and seasonal activity of disease-transmitting ticks (Ogden et al. 2014).

Biodiversity and VBDs: The Large Unknowns .1 Pathogen Diversity

• Vector Diversity
• Host Diversity

However, large knowledge gaps still exist on the diversity of reservoir hosts for mosquito- and tick-borne pathogens in old and new distribution areas (Baráková et al. 2018; Hashiguchi et al. 2018). This model also applies to other vector-host systems, in which a generalist vector uses many host species, only some of which are competent reservoir hosts (Swaddle and Calos 2008; Civitello et al. 2015).

How to Manage VBDs?

• Chemical Insecticides
• Biological Insecticides
• New Genetic Tools in Vector Control
• Sustainable Control Programs

This theoretically self-sufficient Wolbachia method is now in the large-scale pilot phase (reviewed in Mishra et al. 2018). Vu et al. 1998) and are now also proposed as biological agents against Culex mosquitoes.

Responses to VBDs Along with Biodiversity Loss and Climate Change

• Target the Complexity
• Interconnecting People and Knowledge
• Policy Options

Friederike Reuss is funded by the Hessian Center on Climate Change of the Hessian Agency for Conservation, Environment and Geology. Montag D, Kuch U, Rodriguez L, Müller R (2017) Overview of the panel on biodiversity and health under climate change.

The Influence of Socio-economic and Socio-demographic Factors

Introduction

Research interest has recently increased regarding the role that green urban areas can play in improving the health of urban residents (Hartig et al. 2014). In particular, the effects of urban green areas on the health of cities are investigated depending on accessibility and socio-economic status/trends.

Methods

This indicates a more complex relationship between the availability and accessibility of urban green spaces and socio-economic differences that depend on the indicators used to measure the greenness, availability and quality characteristics of urban green spaces. The term 'socio-economic confounding' is used in this chapter to describe factors that may affect health and may even override any association between urban green spaces and health outcomes.

published within the last 5 years (2013–2017, Fig. 5.1). The analysis was therefore restricted to papers published in English from 2013 onward to highlight recent advances in the subject

Results

• Mental Health and General Health
• Birth Outcome
• Overweight
• Physical Activity, Cardiovascular Disease and Mortality
• Green Space Metrics, Buffers and Data Used
• Confounding Factors

Association between green areas and stress became non-significant when adjusting for confounders Cusack et al. For example, Padilla et al. 2016) showed that the significant association between green spaces and stress disappeared when the models were adjusted for socioeconomic confounders.

Table 5.1The main characteristics and results of studies on greenness and health by confounding factors ReferencesCountry, cityAimHEALTHStudy designGreen space metrics and bufferConfounderMain results Abelt and  McLafferty (2017)U.S., New YorkAssessment o

Discussion

• Urban Green Space and Health Outcomes in Relation to Socio-demographic and Socio-economic Confounders
• Implications for Urban Policy and Planning
• Directions for Future Research

Further, the mediating effect of urban green space was highlighted for lower income or deprived groups (Flouri et al. Some relationships of green space and health appeared to be stronger for those living in areas with low income (Xu et al. 2017).

Conclusion

Cusack L et al (2017) Associations between multiple green space measures and birth weight across two US cities. Thompson CW et al (2016) Mitigating stress and supporting health in deprived urban communities: the importance of green space and the social environment.

Green Spaces and Child Health and Development

• Potential Mechanisms
• Pregnancy and Childhood as Important Windows of Vulnerability
• Pregnancy Outcomes and Complications
• Brain Development
• Respiratory and Allergic Conditions
• Cardiometabolic Risk Factors
• Final Remarks

The available evidence on the effects of green spaces on asthma and allergic conditions in children is inconsistent (Lambert et al. 2017). Dadvand P et al (2018b) Green space use and blood glucose in children; population study CASPIAN-V.

Biodiversity, Mental Health and Spiritual Well-being

Theoretical Foundations of Biodiversity and Mental Well-being Relationships

Introduction

Biodiversity also helps mitigate the negative effects of climate change on human health (see Lindley et al. However, biodiversity (with climate change) can also harm human health by dispersing pollen and increasing contact with disease-carrying organisms (Vaz et al.) .

Environmental Preference

• Aesthetic Model of Preferences
• Preference Matrix
• Connection to Biodiversity in the Preference Matrix
• Fractal Geometry and Visual Fluency
• Connection to Biodiversity with Fractals
• Fractal Dimension and Preference
• Fractal Dimension and Restorative Outcomes
• Biophilia Hypothesis
• Connection to Biodiversity in the Biophilia Hypothesis

Further support for a preference for intermediate D results was found in a study by Bies et al. (2016) that examined preferences for statistical (fractals that do not repeat exactly but have the same statistical properties as found in nature) or exact (fractal patterns that repeat precisely and are created by a computer program) fractals. The biophilia hypothesis emphasizes the positive response of humans to nature, which can manifest as a preference for certain animals, plants or the environment (Hartig et al. 2011).

Fig. 7.1 Pictures of natural fractals, demonstrating self-similarity in which a repeated pattern is a reduced-size copy of the whole

Theories of Restorative Environments

• Stress Reduction Theory (SRT)
• Connection to Biodiversity in the SRT
• Attention Restoration Theory (ART)
• Connection to Biodiversity in the ART

Biodiversity was not a concept used in the original theoretical writings of ART. Most conspicuously, the correlation was assessed to be significantly lower in the wilderness environment compared to the other three landscapes (see Fig. 7.3).

Fig. 7.2 Simplified version of the Stress Reduction Theory of affective/arousal response to a natural environment

Ecosystem Services Cascade Model

• Connection to Health and Well-being in the Ecosystem Service Cascade Model

Most of the research on the benefits of ecosystem services for human health and well-being focuses on the physical health benefits of the provision and regulation of ecosystem services (Sandifer et al. 2015). The precise causal pathways linking biodiversity to physical and mental health and well-being through the Cascade Model are poorly understood (Sandifer et al. 2015).

Discussion

The ecosystem services cascade model discusses human health and well-being as benefits derived from biodiversity and ecosystem services (Haines-Young and Potschin 2010; Potschin and Haines-Young 2011), but little research links ecosystem services to human health and well-being . creature (Sandifer et al. 2015). But because biodiversity itself can occur at any stage of the ecosystem service cascade model, it remains unclear what the precise periodic pathways are that link biodiversity to health and well-being (Sandifer et al. 2015).

Table 7.2 Summary of the six frameworks offering perspective on biodiversity and mental well- being relationships with descriptions of how biodiversity and mental well-being are conceptualised, and the mediating pathways that could explain biodiversity-

Biodiversity in the Context

Key Concepts

• Biodiversity
• Mental Health and Well-Being
• Linking Biodiversity to Mental Health: Research Questions and Conceptual Model

Therefore, we also discuss the concepts of mental health and mental well-being, albeit less extensively. In the rest of this chapter, when we use the term 'mental health', mental well-being is implied.

Measurement of Biodiversity

• Characteristics of Nature in General
• The Object to Be Assessed: The Biodiversity of What?
• How to Measure Distance?
• Aggregating Biodiversity Across Different Areas
• Type of Access Metric
• Actual Versus Perceived Biodiversity
• Access Versus Exposure, and Type of Contact
• Mediators, Confounders and Covariates

Another approach is to assess biodiversity at the level of the residential environment as a whole. Information on the level of biodiversity, in terms of species diversity, is not always readily available.

Concluding Remarks

Dallimer M, Irvine KN, Skinner AM et al (2012) Biodiversity and the feel-good factor: understanding relationships between self-reported human well-being and species richness. Tzoulas K, Korpela K, Venn S et al (2007) Promoting ecosystems and human health in urban areas using green infrastructure: a literature review.

Review of the Mental Health

Introduction

To date, only one systematic review has explicitly investigated the health and well-being benefits of contact with biodiversity (Lovell et al. 2014). Describe the state and nature of the evidence, published since the review by Lovell et al. 2014), relating biodiversity to mental health and well-being;.

Methods

• Literature Review
• Characteristics of the Recent Literature

Biodiversity indicators were classified based on the levels of biodiversity identified by Botzat et al. 2016) – that is, ecosystems/habitats (eg parks, forests); communities of species (eg plants, birds, butterflies); or single species. Abundance may be more important for mental health or mental well-being than the number of different species (Dallimer et al. 2012).

Fig. 9.1 Process of literature review and identified relevant articles