This document discusses using nature-based solutions to address climate change and sustainability at the city scale. It proposes a local climate action framework with three drivers: 1) policy incentives and planning, 2) biodiversity and natural ecosystems, and 3) low-carbon infrastructure and green infrastructure. Cities are well-positioned to combat climate change impacts through engagement with residents in their daily lives. Nature and green infrastructure can provide cost-effective ways to contribute to climate change mitigation and adaptation goals while also improving human well-being.
Role of watershed management in reducing soil erosion zewde azewde alemayehu
Soil is one of the most important and essential natural resources. Soils offer plants physical support, air, water, temperature moderation, nutrients, and protection from toxins. Soils provide readily available nutrients to plants and animals by converting dead organic matter into various nutrient forms.
Impacts of climate change on livelihood by zewde alemayehu tilahunzewde alemayehu
Climate change is negatively impacting livelihoods in several ways. It is causing weather extremes like droughts and floods more frequently, reducing food security and forcing migration. Subsistence farmers are especially vulnerable as they depend on climate-sensitive rain-fed agriculture. Studies show countries like Ethiopia, which rely heavily on agriculture, may see agricultural income reductions of 60% by 2100 due to climate change. Climate change is exacerbating existing issues in Ethiopia like land degradation and deforestation, further threatening livelihoods. Adaptation is needed to help vulnerable communities cope with the effects of climate change and protect livelihoods.
The document discusses the economics of environmental sustainability and sustainable development. It defines economics and the linkages between the economy and the environment. It discusses how production and consumption use resources and generate residuals, affecting the environment. The goal of environmental sustainability is to meet present needs without compromising the ability of future generations to meet their own needs.
This series of blog has been prepared by the author (Shahadat Hossain Shaki) for the partial
fulfilment of his master’s program course ―Key Debates in Environmental Governance‖, which has been supervised by Prof. Dr. Maria Kaika.
Blog Link: http://environmentalgovernance.wordpress.com/author/shshakil/
Author can be contacted for further query and suggestions at : shshakil.buet@gmail.com
An efficient allocation of resources that adequately accounts for natural capital. Traditional economics (including environmental economics - defined as the application of traditional economics to environmental problems) has focused on a third of these problems (efficient allocation) and therefore has not fully addressed the issue of sustainable development.
Development, Environment and Sustainabilty–the triumvirate on Geographical FrameProf Ashis Sarkar
Development, Environment and Sustainability form the triumvirate of present day World. If human is to survive and development is to remain sustainable, the geographical issues and concerns should be the thrust of analysis.
The document discusses social-ecology and sustainable prosperity. It outlines the acceleration of human domination on Earth and increasing ecological crises. It argues that ecological crises have social causes related to unsustainable inequalities, and the solution is to promote more democracy. Inequality increases environmental degradation by allowing those with power and wealth to impose costs on others. The key is to address the social dimensions of ecological issues through principles of justice and governance of common resources.
Role of watershed management in reducing soil erosion zewde azewde alemayehu
Soil is one of the most important and essential natural resources. Soils offer plants physical support, air, water, temperature moderation, nutrients, and protection from toxins. Soils provide readily available nutrients to plants and animals by converting dead organic matter into various nutrient forms.
Impacts of climate change on livelihood by zewde alemayehu tilahunzewde alemayehu
Climate change is negatively impacting livelihoods in several ways. It is causing weather extremes like droughts and floods more frequently, reducing food security and forcing migration. Subsistence farmers are especially vulnerable as they depend on climate-sensitive rain-fed agriculture. Studies show countries like Ethiopia, which rely heavily on agriculture, may see agricultural income reductions of 60% by 2100 due to climate change. Climate change is exacerbating existing issues in Ethiopia like land degradation and deforestation, further threatening livelihoods. Adaptation is needed to help vulnerable communities cope with the effects of climate change and protect livelihoods.
The document discusses the economics of environmental sustainability and sustainable development. It defines economics and the linkages between the economy and the environment. It discusses how production and consumption use resources and generate residuals, affecting the environment. The goal of environmental sustainability is to meet present needs without compromising the ability of future generations to meet their own needs.
This series of blog has been prepared by the author (Shahadat Hossain Shaki) for the partial
fulfilment of his master’s program course ―Key Debates in Environmental Governance‖, which has been supervised by Prof. Dr. Maria Kaika.
Blog Link: http://environmentalgovernance.wordpress.com/author/shshakil/
Author can be contacted for further query and suggestions at : shshakil.buet@gmail.com
An efficient allocation of resources that adequately accounts for natural capital. Traditional economics (including environmental economics - defined as the application of traditional economics to environmental problems) has focused on a third of these problems (efficient allocation) and therefore has not fully addressed the issue of sustainable development.
Development, Environment and Sustainabilty–the triumvirate on Geographical FrameProf Ashis Sarkar
Development, Environment and Sustainability form the triumvirate of present day World. If human is to survive and development is to remain sustainable, the geographical issues and concerns should be the thrust of analysis.
The document discusses social-ecology and sustainable prosperity. It outlines the acceleration of human domination on Earth and increasing ecological crises. It argues that ecological crises have social causes related to unsustainable inequalities, and the solution is to promote more democracy. Inequality increases environmental degradation by allowing those with power and wealth to impose costs on others. The key is to address the social dimensions of ecological issues through principles of justice and governance of common resources.
The document discusses the relationship between the environment and sustainable economic development. It defines environment and explains how it is interdependent with development. Sustainable development is defined as meeting present needs without compromising future generations' ability to meet their own needs. While economic growth benefits standards of living, it has also degraded ecosystems. Maintaining balance requires policy interventions like promoting cleaner technologies, efficient resource use, and international cooperation. Development and environment impact each other, so sustainable development is needed.
This document proposes a new framework called "anthropogenic biomes" for classifying and mapping global ecological patterns and processes. It argues that humans now shape ecological patterns across most of the terrestrial biosphere through activities like deforestation, agriculture, grazing and urbanization. Conventional biomes based only on climate do not accurately capture the significant role of human populations and land use. The proposed anthropogenic biomes framework identifies ecosystem processes as primarily a function of human population density and land use, rather than just climate. It presents a preliminary global map of anthropogenic biomes including residential rangelands, populated rangelands, remote rangelands, and others. The framework aims to provide a more realistic model of global ecology and better
Leadership and Urban Sustainability, Irina Safitri Zen, UTMESD UNU-IAS
The 2016 ProSPER.Net Leadership Programme was held in Labuan Island and Beaufort, Sabah, Malaysia. The Programme included workshops, plenary sessions, and fieldwork around the topics of local sustainable development challenges in the region. The main goals of the Programme were to identify local leadership opportunities for sustainable development and to link local and national sustainable development projects to the Sustainable Development Goals (SDGs), the Paris Climate Treaty, and the Sendai Framework on Disaster Risk Reduction.
Ecological economics aims to address the interdependence of human economies and natural ecosystems over time and space. It recognizes that issues like deforestation, pollution, and climate change are driven by economic decisions but traditional economics has overlooked ecosystems and sustainability. Ecological economics seeks true economic efficiency by incorporating all costs, including those related to resource depletion and environmental damage, into prices. It also acknowledges that resources and ecosystems are the foundation of the economy and that the economy is ultimately bounded by and dependent on the planet.
The document discusses the importance of protecting the environment. It defines key terms like environment, sustainability, and environmental degradation. It explores the relationship between the economy and environment. It discusses several major environmental issues like global warming, pollution, and deforestation. It outlines important environmental movements like Chipko and organizations working on sustainability like UNEP. The document emphasizes that protecting the environment benefits both current and future generations.
Leyendo el texto completo, responda:
1) ¿Cuál es el problema que aborda la economía ecológica?
2) ¿Cuál es el asunto primario bajo el paradigma de administración de la economía ecológica?
Puede responder en inglés o español.
A Tradução na Era da Economia Verde
Marsel de Souza
Mesclando uma perspectiva histórica a uma perspectiva linguística, esta palestra abordará o surgimento e a evolução do conceito de Desenvolvimento Sustentável até chegar à recentíssima noção de “Economia Verde”, ressaltando a crescente indissociabilidade entre as dimensões ambiental, econômica e social, que são consideradas os três pilares da sustentabilidade. A apresentação fará, também, uma importante distinção entre as noções de “Economia Verde” e “Nova Economia”. Será discutida a problemática da “maquiagem verde” e o que isso representa para o nosso ofício. A palestra tem os seguintes objetivos: examinar vários conceitos da área de meio ambiente e sustentabilidade (alguns dos quais recém-criados), inclusive fazendo uma análise contrastiva de algumas definições de Desenvolvimento Sustentável e de Economia Verde; identificar o potencial de demanda dos mercados de tradução e interpretação que a temática do meio ambiente/sustentabilidade vem gerando no país, sobretudo considerando a posição de liderança e destaque do Brasil em diversas frentes nesse domínio; examinar a interconexão entre os aspectos ambientais, econômicos e sociais dos temas. Nesse contexto de multidisciplinaridade e tendo em vista a crescente importância desses conceitos em escala mundial, a palestra terá, também, o objetivo de responder às seguintes perguntas: Que passos deve dar o tradutor ou intérprete que deseje se especializar em áreas de meio ambiente/sustentabilidade? O que os linguistas especializados em outras áreas precisam saber sobre essas questões? O palestrante oferecerá uma rica lista de fontes de pesquisa terminológica na Internet das áreas citadas, inclusive glossários e tratados internacionais multilíngues.
Watershed Characterization And Management Planning In Wular Catchment [www.wr...WriteKraft Dissertations
Writekraft Research and Publications LLP was initially formed, informally, in 2006 by a group of scholars to help fellow students. Gradually, with several dissertations, thesis and assignments receiving acclaim and a good grade, Writekraft was officially founded in 2011 . Since its establishment, Writekraft Research & Publications LLP is Guiding and Mentoring PhD Scholars.
Our Mission
“To provide breakthrough research works to our clients through Perseverant efforts towards creativity and innovation”.
Vision
Writekraft endeavours to be the leading global research and publications company that will fulfil all research needs of our clients. We will achieve this vision through:
Analyzing every customer’s aims, objectives and purpose of research
Using advanced and latest tools and technique of research and analysis
Coordinating and including their own ideas and knowledge
Providing the desired inferences and results of the research
In the past decade, we have successfully assisted students from various universities in India and globally. We at Writekraft Research & Publications LLP head office in Kanpur, India are most trusted and professional Research, Writing, Guidance and Publication Service Provider for PhD. Our services meet all your PhD Admissions, Thesis Preparation and Research Paper Publication needs with highest regards for the quality you prefer.
Our Achievements
NATIONAL AWARD FOR BEST RESEARCH PROJECT (By Hon. President APJ Abdul Kalam)
GOLD MEDAL FOR RESEARCH ON DISABILITY (By Disabled’s Club of India)
NOMINATED FOR BEST MSME AWARDS 2017
5 STAR RATING ON GOOGLE
We have PhD experts from reputed institutions/ organizations like Indian Institute of Technology (IIT), Indian Institute of Management (IIM) and many more apex education institutions in India. Our works are tailored and drafted as per your requirements and are totally unique.
From past years our core advisory members, research team assisted research scholars from various universities from all corners of world
Subjects/Areas We Cover
Management, Commerce, Finance, Marketing, Psychology, Education, Sociology, Mass communications, English Literature, English Language, Law, History, Computer Science & Engineering, Electronics & Communication Engineering, Mechanical Engineering, Civil Engineering, Electrical Engineering, Pharmacy & Healthcare.
Ecological approaches in planning for sustainable cities A review of the lite...GJESM Publication
Rapid urbanization has brought environmentally, socially, and economically great challenges to cities
and societies. To build a sustainable city, these challenges need to be faced efficiently and successfully. This paper focuses on the environmental issues and investigates the ecological approaches for planning sustainable cities through a comprehensive review of the relevant literature. The review focuses on several differing aspects of sustainable city formation. The paper provides insights on the interaction between the natural environment and human activities by identifying environmental effects resulting from this interaction; provides an introduction to the concept of sustainable urban development by underlining the important role of ecological planning in achieving sustainable cities; introduces the notion of urban ecosystems by establishing principles for the management of their sustainability; describes urban
ecosystem sustainability assessment by introducing a review of current assessment methods, and; offers an outline of indexing urban environmental sustainability. The paper concludes with a summary of the findings.
Evolution of waste management strategies in industries: from passive to proac...Premier Publishers
This paper is a review of various articles and documents on development of waste management approaches in industries. It provides information on advancement of waste management approaches as human awareness to environment increases and demonstrates the benefits of proactive waste management measures in industries. Most polluting industries in the world were established by the time the earth had the capacity to provide raw materials and absorb wastes. However, with increasing industrialization and urbanization virgin raw materials seriously declined and waste loads dramatically increased. As a result waste management strategies progressively evolved. In 1960s waste avoidance measures through foul and flee, dilute and disperse, concentrate and contain; in 1970s purification units at the end of emission pipes; in 1980s resource recovery through recycling and energy saving strategies were used as solutions to the problem of wastes on the environment. Furthermore, from 1990s onwards proactive measures by Cleaner Production technologies focusing on the source of waste generation to reduce, reuse and recycle wastes into valuable resources became the best solution for sustainable management of wastes and to enhance the performance of industries. Cleaner production technologies assured marvelous evidences for sustainable development by allowing industries to produce more efficiently and gain incredible economic, environmental and social benefits with less input utilization and less environmental impacts.
http://assignment-partner.com/ .That's a sample paper - essay / paper on the topic "Organizational development and change" created by our writers!
Disclaimer: The paper above have been completed for actual clients. We have acclaimed personal permission from the customers to post it.
Final Draft Research Paper_Sustainability copyTobbi Stewart
1. The document discusses the concept of sustainability and introduces its three main components: a healthy environment, social justice, and economic growth.
2. It explains that sustainability aims to meet the needs of the present without compromising the ability of future generations to meet their own needs.
3. The document analyzes how human activity has negatively impacted the environment through pollution, resource depletion, and climate change, threatening Earth's carrying capacity and long-term habitability.
since human started the industrial revolution and things started to become worse for environment and public health and so many movements took place. movements were means for representing anger and revolution.
The document discusses different visions of environmental governance:
1) The market liberal vision sees economic prosperity and a good environment going hand in hand through market efficiency and corporate social responsibility.
2) The institutionalist vision agrees with embracing globalization but calls for a stronger global environmental regime with broader enforcement of rules.
3) The bio-environmental vision predicts future environmental doom due to unchecked human population growth and overconsumption, calling for population control and reduced consumption.
4) The social green vision proposes concepts like a steady state economy with constant human/capital levels and pursues environmental justice, local empowerment, and import substitution over exploitation by multinational corporations.
The document discusses the hydraulic system of automatic transmissions. It begins by outlining chapter objectives related to hydraulic principles and transmission hydraulic systems. It then provides an introduction to the functions of the automatic transmission's hydraulic system. The remainder of the document discusses hydraulic principles in more detail and covers components of transmission hydraulic systems including pumps, valves, filters and methods of controlling fluid flow. Diagrams and figures are included to illustrate hydraulic components and concepts.
By providing small grants to returning refugees, the program seeks to address food availability and food security, and bring back farming practices in communities that were devastated by decades of war. Moreover, the project provides each community with a set of oxen and ox-plough to facilitate for increased food production.
Post grand success of 3rd International Scientific e-Conference, We are about to launch 4th International e-Conference which is to be revealed soon. Visit www.texilaconference.org for more info.
This document provides resources for a YouTube video about the uninsured in America. It includes links to photos used in the video presentation slides and credits the sources of these photos. The photos depict topics related to health care, poverty, and community organizations. The document also lists related organizations and their websites that provide more information on their services.
Forma general de un algoritmo en p seudo codigoirometi
El documento describe la estructura general de un algoritmo en pseudocódigo, incluyendo las palabras clave "Proceso" y "FinProceso" para marcar el inicio y fin, y una secuencia de instrucciones terminadas en punto y coma. También describe los tipos de datos básicos como numéricos, lógicos y de caracteres, y estructuras como arreglos, así como cómo se determinan y usan los tipos de datos simples.
La República Dominicana ha cobrado impuestos desde la época colonial, pero el organismo que administra y recauda impuestos internos se estableció en 1935 con la creación del Departamento de Rentas Internas, que dependía del entonces Secretaría de Estado de Tesoro y Crédito Público, ahora conocido como el Ministerio de Hacienda.
The document discusses the relationship between the environment and sustainable economic development. It defines environment and explains how it is interdependent with development. Sustainable development is defined as meeting present needs without compromising future generations' ability to meet their own needs. While economic growth benefits standards of living, it has also degraded ecosystems. Maintaining balance requires policy interventions like promoting cleaner technologies, efficient resource use, and international cooperation. Development and environment impact each other, so sustainable development is needed.
This document proposes a new framework called "anthropogenic biomes" for classifying and mapping global ecological patterns and processes. It argues that humans now shape ecological patterns across most of the terrestrial biosphere through activities like deforestation, agriculture, grazing and urbanization. Conventional biomes based only on climate do not accurately capture the significant role of human populations and land use. The proposed anthropogenic biomes framework identifies ecosystem processes as primarily a function of human population density and land use, rather than just climate. It presents a preliminary global map of anthropogenic biomes including residential rangelands, populated rangelands, remote rangelands, and others. The framework aims to provide a more realistic model of global ecology and better
Leadership and Urban Sustainability, Irina Safitri Zen, UTMESD UNU-IAS
The 2016 ProSPER.Net Leadership Programme was held in Labuan Island and Beaufort, Sabah, Malaysia. The Programme included workshops, plenary sessions, and fieldwork around the topics of local sustainable development challenges in the region. The main goals of the Programme were to identify local leadership opportunities for sustainable development and to link local and national sustainable development projects to the Sustainable Development Goals (SDGs), the Paris Climate Treaty, and the Sendai Framework on Disaster Risk Reduction.
Ecological economics aims to address the interdependence of human economies and natural ecosystems over time and space. It recognizes that issues like deforestation, pollution, and climate change are driven by economic decisions but traditional economics has overlooked ecosystems and sustainability. Ecological economics seeks true economic efficiency by incorporating all costs, including those related to resource depletion and environmental damage, into prices. It also acknowledges that resources and ecosystems are the foundation of the economy and that the economy is ultimately bounded by and dependent on the planet.
The document discusses the importance of protecting the environment. It defines key terms like environment, sustainability, and environmental degradation. It explores the relationship between the economy and environment. It discusses several major environmental issues like global warming, pollution, and deforestation. It outlines important environmental movements like Chipko and organizations working on sustainability like UNEP. The document emphasizes that protecting the environment benefits both current and future generations.
Leyendo el texto completo, responda:
1) ¿Cuál es el problema que aborda la economía ecológica?
2) ¿Cuál es el asunto primario bajo el paradigma de administración de la economía ecológica?
Puede responder en inglés o español.
A Tradução na Era da Economia Verde
Marsel de Souza
Mesclando uma perspectiva histórica a uma perspectiva linguística, esta palestra abordará o surgimento e a evolução do conceito de Desenvolvimento Sustentável até chegar à recentíssima noção de “Economia Verde”, ressaltando a crescente indissociabilidade entre as dimensões ambiental, econômica e social, que são consideradas os três pilares da sustentabilidade. A apresentação fará, também, uma importante distinção entre as noções de “Economia Verde” e “Nova Economia”. Será discutida a problemática da “maquiagem verde” e o que isso representa para o nosso ofício. A palestra tem os seguintes objetivos: examinar vários conceitos da área de meio ambiente e sustentabilidade (alguns dos quais recém-criados), inclusive fazendo uma análise contrastiva de algumas definições de Desenvolvimento Sustentável e de Economia Verde; identificar o potencial de demanda dos mercados de tradução e interpretação que a temática do meio ambiente/sustentabilidade vem gerando no país, sobretudo considerando a posição de liderança e destaque do Brasil em diversas frentes nesse domínio; examinar a interconexão entre os aspectos ambientais, econômicos e sociais dos temas. Nesse contexto de multidisciplinaridade e tendo em vista a crescente importância desses conceitos em escala mundial, a palestra terá, também, o objetivo de responder às seguintes perguntas: Que passos deve dar o tradutor ou intérprete que deseje se especializar em áreas de meio ambiente/sustentabilidade? O que os linguistas especializados em outras áreas precisam saber sobre essas questões? O palestrante oferecerá uma rica lista de fontes de pesquisa terminológica na Internet das áreas citadas, inclusive glossários e tratados internacionais multilíngues.
Watershed Characterization And Management Planning In Wular Catchment [www.wr...WriteKraft Dissertations
Writekraft Research and Publications LLP was initially formed, informally, in 2006 by a group of scholars to help fellow students. Gradually, with several dissertations, thesis and assignments receiving acclaim and a good grade, Writekraft was officially founded in 2011 . Since its establishment, Writekraft Research & Publications LLP is Guiding and Mentoring PhD Scholars.
Our Mission
“To provide breakthrough research works to our clients through Perseverant efforts towards creativity and innovation”.
Vision
Writekraft endeavours to be the leading global research and publications company that will fulfil all research needs of our clients. We will achieve this vision through:
Analyzing every customer’s aims, objectives and purpose of research
Using advanced and latest tools and technique of research and analysis
Coordinating and including their own ideas and knowledge
Providing the desired inferences and results of the research
In the past decade, we have successfully assisted students from various universities in India and globally. We at Writekraft Research & Publications LLP head office in Kanpur, India are most trusted and professional Research, Writing, Guidance and Publication Service Provider for PhD. Our services meet all your PhD Admissions, Thesis Preparation and Research Paper Publication needs with highest regards for the quality you prefer.
Our Achievements
NATIONAL AWARD FOR BEST RESEARCH PROJECT (By Hon. President APJ Abdul Kalam)
GOLD MEDAL FOR RESEARCH ON DISABILITY (By Disabled’s Club of India)
NOMINATED FOR BEST MSME AWARDS 2017
5 STAR RATING ON GOOGLE
We have PhD experts from reputed institutions/ organizations like Indian Institute of Technology (IIT), Indian Institute of Management (IIM) and many more apex education institutions in India. Our works are tailored and drafted as per your requirements and are totally unique.
From past years our core advisory members, research team assisted research scholars from various universities from all corners of world
Subjects/Areas We Cover
Management, Commerce, Finance, Marketing, Psychology, Education, Sociology, Mass communications, English Literature, English Language, Law, History, Computer Science & Engineering, Electronics & Communication Engineering, Mechanical Engineering, Civil Engineering, Electrical Engineering, Pharmacy & Healthcare.
Ecological approaches in planning for sustainable cities A review of the lite...GJESM Publication
Rapid urbanization has brought environmentally, socially, and economically great challenges to cities
and societies. To build a sustainable city, these challenges need to be faced efficiently and successfully. This paper focuses on the environmental issues and investigates the ecological approaches for planning sustainable cities through a comprehensive review of the relevant literature. The review focuses on several differing aspects of sustainable city formation. The paper provides insights on the interaction between the natural environment and human activities by identifying environmental effects resulting from this interaction; provides an introduction to the concept of sustainable urban development by underlining the important role of ecological planning in achieving sustainable cities; introduces the notion of urban ecosystems by establishing principles for the management of their sustainability; describes urban
ecosystem sustainability assessment by introducing a review of current assessment methods, and; offers an outline of indexing urban environmental sustainability. The paper concludes with a summary of the findings.
Evolution of waste management strategies in industries: from passive to proac...Premier Publishers
This paper is a review of various articles and documents on development of waste management approaches in industries. It provides information on advancement of waste management approaches as human awareness to environment increases and demonstrates the benefits of proactive waste management measures in industries. Most polluting industries in the world were established by the time the earth had the capacity to provide raw materials and absorb wastes. However, with increasing industrialization and urbanization virgin raw materials seriously declined and waste loads dramatically increased. As a result waste management strategies progressively evolved. In 1960s waste avoidance measures through foul and flee, dilute and disperse, concentrate and contain; in 1970s purification units at the end of emission pipes; in 1980s resource recovery through recycling and energy saving strategies were used as solutions to the problem of wastes on the environment. Furthermore, from 1990s onwards proactive measures by Cleaner Production technologies focusing on the source of waste generation to reduce, reuse and recycle wastes into valuable resources became the best solution for sustainable management of wastes and to enhance the performance of industries. Cleaner production technologies assured marvelous evidences for sustainable development by allowing industries to produce more efficiently and gain incredible economic, environmental and social benefits with less input utilization and less environmental impacts.
http://assignment-partner.com/ .That's a sample paper - essay / paper on the topic "Organizational development and change" created by our writers!
Disclaimer: The paper above have been completed for actual clients. We have acclaimed personal permission from the customers to post it.
Final Draft Research Paper_Sustainability copyTobbi Stewart
1. The document discusses the concept of sustainability and introduces its three main components: a healthy environment, social justice, and economic growth.
2. It explains that sustainability aims to meet the needs of the present without compromising the ability of future generations to meet their own needs.
3. The document analyzes how human activity has negatively impacted the environment through pollution, resource depletion, and climate change, threatening Earth's carrying capacity and long-term habitability.
since human started the industrial revolution and things started to become worse for environment and public health and so many movements took place. movements were means for representing anger and revolution.
The document discusses different visions of environmental governance:
1) The market liberal vision sees economic prosperity and a good environment going hand in hand through market efficiency and corporate social responsibility.
2) The institutionalist vision agrees with embracing globalization but calls for a stronger global environmental regime with broader enforcement of rules.
3) The bio-environmental vision predicts future environmental doom due to unchecked human population growth and overconsumption, calling for population control and reduced consumption.
4) The social green vision proposes concepts like a steady state economy with constant human/capital levels and pursues environmental justice, local empowerment, and import substitution over exploitation by multinational corporations.
The document discusses the hydraulic system of automatic transmissions. It begins by outlining chapter objectives related to hydraulic principles and transmission hydraulic systems. It then provides an introduction to the functions of the automatic transmission's hydraulic system. The remainder of the document discusses hydraulic principles in more detail and covers components of transmission hydraulic systems including pumps, valves, filters and methods of controlling fluid flow. Diagrams and figures are included to illustrate hydraulic components and concepts.
By providing small grants to returning refugees, the program seeks to address food availability and food security, and bring back farming practices in communities that were devastated by decades of war. Moreover, the project provides each community with a set of oxen and ox-plough to facilitate for increased food production.
Post grand success of 3rd International Scientific e-Conference, We are about to launch 4th International e-Conference which is to be revealed soon. Visit www.texilaconference.org for more info.
This document provides resources for a YouTube video about the uninsured in America. It includes links to photos used in the video presentation slides and credits the sources of these photos. The photos depict topics related to health care, poverty, and community organizations. The document also lists related organizations and their websites that provide more information on their services.
Forma general de un algoritmo en p seudo codigoirometi
El documento describe la estructura general de un algoritmo en pseudocódigo, incluyendo las palabras clave "Proceso" y "FinProceso" para marcar el inicio y fin, y una secuencia de instrucciones terminadas en punto y coma. También describe los tipos de datos básicos como numéricos, lógicos y de caracteres, y estructuras como arreglos, así como cómo se determinan y usan los tipos de datos simples.
La República Dominicana ha cobrado impuestos desde la época colonial, pero el organismo que administra y recauda impuestos internos se estableció en 1935 con la creación del Departamento de Rentas Internas, que dependía del entonces Secretaría de Estado de Tesoro y Crédito Público, ahora conocido como el Ministerio de Hacienda.
By providing small grants to returning refugees, the program seeks to address food availability and food security, and bring back farming practices in communities that were devastated by decades of war. Moreover, the project provides each community with a set of oxen and ox-plough to facilitate for increased food production. This project is made possible by the Stewardship Foundation.
Innovacion tecnologica andres leidy jesicajessipino
Este documento enumera las principales características y especificaciones de un dispositivo móvil, incluyendo su pantalla, memoria, sensores, cámara, batería, servicios y aplicaciones, sistema operativo, chipset, especificaciones físicas, conectores y capacidades de audio y video.
La organización tiene cuatro divisiones principales: gerente general, compra-venta, compras y ventas. Cada división tiene un gerente a cargo y un equipo de trabajo.
This study analyzed the oral literature traditions of the Manuvo people in San Miguel, Philippines. The researchers used qualitative methods and literary approaches like formalism and mimesis to define, understand, and interpret the Manuvos' songs, stories, and rituals. They identified common themes, symbols, and issues in the oral traditions and how these traditions reflected the Manuvos' language, culture, and values. Specifically, the study found folk songs, ritual songs, and stories still practiced in the community. The analysis of these oral literatures provided insights into the Manuvos' traditions and way of life. The researchers hope this study helps the Manuvo community preserve their rich oral traditions for future generations.
"Секреты успешного внедрения Битрикс24 в компанию" А. Васильевawgua
Секреты успешного внедрения Битрикс24 в компанию
- Участие собстенника/директора на этапе внедрения
- Вовлечение сотрудников в Битрикс24
- Критерии оценки успешного внедрения Битрикс24
Александр Васильев, CEO "AWG"
This document discusses sustainable urban development and building greener cities. It covers topics like sustainability, community planning, green buildings, mass transit, and planning with nature. The goal of sustainability is to meet present needs without compromising future generations' ability to meet their own needs. Sustainable community planning considers social, environmental, and economic impacts of policies. Tools like energy efficiency and conservation block grants can fund projects that reduce energy use and fossil fuel emissions.
This document discusses sustainability in the construction sector. It begins by defining sustainability and its three pillars - environmental, economic, and social. It then discusses sustainability at various scales from global to local. Sustainable development strategies aim to balance these three pillars through principles like respecting environmental limits and improving quality of life. The construction sector has significant environmental impacts through resource use and pollution, but can also support economic and social sustainability through jobs and infrastructure. Sustainable construction approaches like green building aim to minimize these environmental impacts over the full building lifecycle from construction to demolition.
1. The document discusses ecosystem-based adaptation (EbA) and identifies several key international policies and frameworks that provide guidance on EbA, including the UNFCCC, Paris Agreement, and CBD. It also outlines stakeholder engagement and understanding local policy contexts as important for planning and implementing successful EbA projects.
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IntroductionWelcome to the year 2050. Where there are no more .docxvrickens
Introduction
Welcome to the year 2050. Where there are no more ice caps remaining in the arctic, 35 million people have been affected by flooding this year alone, 2 million people displaced by weather and climate-linked disasters and deforestation has left us with little to no trees left to provide vital oxygen for us. “Climate change is a reality that is happening now, and that we can see its impact across the world” (Haddrill, 2014) Climate change can be defined as the changes in the pattern of the climate due to natural and human resources that have been used inappropriately. Climate is defined as the “average weather” (Calow, 1998) for a particular region. Climate change is the human activities that affect Earth’s climate by using the human activities inappropriately that leads to the warming of the Earth.
Climate change is a bigger issue that is linked to many other smaller aspects in our world. In this paper, I will explore climate change and its various aspects. I will also elaborate on these sub aspects in greater detail.
Renewable Energy Sources & Climate Mitigation
analysis of renewable energy technologies and their current and potential role in the mitigation of greenhouse gas emissions.
Climate Change & Financial Crisis
Gender Responsiveness To Climate Change
Climate Change and Public Health
Securing Water Supplies
Climate Change Induced Challenges On Deforestation
Effects on Wildlife
How Urbanization Is Affecting Climate Change
Ocean Life and Climate Change
How Do we fix this?: Effective Response to Climate Change
Introduction
Welcome to the year 2050. Where there are no more ice caps remaining in the arctic, 35 million people have been affected by flooding this year alone, 2 million people displaced by weather and climate-linked disasters and deforestation has left us with little to no trees left to provide vital oxygen for us. “Climate change is a reality that is happening now, and that we can see its impact across the world” (Haddrill, 2014) Climate change can be defined as the changes in the pattern of the climate due to natural and human resources that have been used inappropriately. Climate is defined as the “average weather” (Calow, 1998) for a particular region. Climate change is the human activities that affect Earth’s climate by using the human activities inappropriately that leads to the warming of the Earth.
Climate change is a bigger issue that is linked to many other smaller aspects in our world. In this paper, I will explore climate change and its various aspects. I will also elaborate on these sub aspects in greater detail.
Renewable Energy Sources & Climate Mitigation
analysis of renewable energy technologies and their current and potential role in the mitigation of greenhouse gas emissions.
Climate Change & Financial Crisis
Gender Responsiveness To Climate Change
Climate Change and Public Health
Securing Water Supplies
Climate Change Induced Challenges On Deforesta ...
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The document discusses environmentalism and environmental issues in India. It provides definitions of key terms like environment, environmentalism, and discusses major issues causing environmental degradation in India like increasing pollution, urbanization, industrialization, deforestation, and population growth. It also summarizes the important legal measures and acts passed by the Indian government to protect the environment and balance development with environmental conservation, like the Wildlife Protection Act, Water and Air Acts, Environment Protection Act, etc. The goal of these laws is to prevent different forms of pollution, protect natural resources, and promote sustainability.
Similar to Sustainability-08-00254 - Human -Nature for Climate Action (20)
Sustainability-08-00254 - Human -Nature for Climate Action
1. sustainability
Article
Human-Nature for Climate Action: Nature-Based
Solutions for Urban Sustainability
Helen Santiago Fink
Department of Landscape, Spatial and Infrastructure Sciences, University of Natural Resources and Life
Sciences, Vienna 1180, Austria; hsfwien@yahoo.com
Academic Editor: Tan Yigitcanlar
Received: 18 December 2015; Accepted: 1 March 2016; Published: 15 March 2016
Abstract: The global climate change agenda proceeds at an incremental pace while the Earth is
approaching critical tipping points in its development trajectory. Climate action at this pinnacle
juncture needs to be greatly accelerated and rooted in the fundamentals of the problem—human beings’
disconnection from nature. This paper underscores the valuable role nature and nature-based solutions
can play in addressing climate change at the city scale and its implications for broader sustainability.
Urban ecosystems (nature in cities) are seen as an integral part of a proposed local climate action rubric
wherein policy measures and integrated planning guide lowcarbon/impact development to create
more resilient and sustainable urban environments. The use of green infrastructure is highlighted as a
cost-effective means to contribute to mitigation and adaptation needs as well as to promote human
wellbeing. The paper takes an exploratory view of the influence of ecosystem services, particularly
cultural services, and its economics in relation to the individual and society to understand how biophilia
can be nurtured to promote environmental stewardship and climate action.
Keywords: cities; climate change; nature; urban ecosystem services; green infrastructure; sustainability;
behavior change; biophilia
1. Introduction: A New Local Climate Action Rubric
“We should bear in mind that profound changes in attitudes, behaviours and policies will be
required to create a world in which human beings live in harmony with nature.” Sam Kahamba Kutesa,
UN General Assembly President—Dialogue on Harmony with Nature (UN News 2015 [1]).
It is time to move beyond process to tangible action at multiple scales to avoid the impending
climatic and socio-economic tipping points confronting human existence. It is imperative we strike an
equilibrium between humans and nature in light of growing populations, accelerating consumption,
exploitative resource extraction and deteriorating biodiversity, being keenly aware that humans are
dependent on the natural environmental for survival and not the inverse.
The sustainability of human development is grounded in attaining a social-ecological balance and
harmonious quality of life with nature. Accelerating societal understanding of the inherent dependency
human beings have on the natural environment for human health, economic development and societal
evolution is fundamental to foster respect and accountability toMother Earth. Once understood, nature
can be our salvation and the innovation of the future.
Nature-based solutions to our climate dilemma also lay the foundations for sustainable development
and human wellbeing. The European Commission defines “nature-based solutions” “as actions which
are inspired by, supported by or copied from nature”. Clearly, multidisciplinary approaches to the climate
challenge also need to include disinvestment from fossil fuel energy, building local capacities, employing
more women decision-makers, citizen engagement, green production and integrated urban planning
to reduce dependency on motorized transport. Women comprise only seven percent of environment,
natural resources and energy ministers and a mere three percent of science and technology ministers
Sustainability 2016, 8, 254; doi:10.3390/su8030254 www.mdpi.com/journal/sustainability
2. Sustainability 2016, 8, 254 2 of 21
globally. Yet, research indicates when women are in leadership positions in greater numbers, public and
collective issues are more often prioritized, including access to clean water and education and setting
aside protected land areas as well as conflict prevention and sustainable peace solutions being more
common (UN 2012 [2]). Sustained climate solutions warrant a paradigm re-think in how the developed
countries pursue economic growth and value quality of life, with developing and emerging economies
avoiding the mistakes of the former. Decoupling economic growth from environmental degradation is
essential to keep within planetary resource boundaries, with city-level decoupling increasingly essential
in light of growing urbanization (UNEP 2013 [3]).
The paper puts forth a nature-based approach in the context of a local climate action rubric,
wherein the drivers of a sustainable and resilient city include: (1) policy incentives and integrated
systems planning; (2) rich biodiversity and natural ecosystems; and (3) low carbon urban infrastructure
and green infrastructure (see Figure 1). The valuable contribution of cities to the global climate agenda
is underscored, emphasizing the potential of the local context to change behavior towards climate
action and global sustainability. The economics of nature are outlined to make the business case for
greater use of nature-based solutions in our cities and built environments to positively exploit the
ecosystem services for climate mitigation and adaptation as well as resource efficiency. The important
contribution of green infrastructure to sustainable urban development is reviewed, particularly in
support of urban ecosystems services and quality of life.
comprise only seven percent of environment, natural resources and energy ministers and a mere
three percent of science and technology ministers globally. Yet, research indicates when women are
in leadership positions in greater numbers, public and collective issues are more often prioritized,
including access to clean water and education and setting aside protected land areas as well as
conflict prevention and sustainable peace solutions being more common (UN 2012 [2]). Sustained
climate solutions warrant a paradigm re‐think in how the developed countries pursue economic
growth and value quality of life, with developing and emerging economies avoiding the mistakes of
the former. Decoupling economic growth from environmental degradation is essential to keep
within planetary resource boundaries, with city‐level decoupling increasingly essential in light of
growing urbanization (UNEP 2013 [3]).
The paper puts forth a nature‐based approach in the context of a local climate action rubric,
wherein the drivers of a sustainable and resilient city include: (1) policy incentives and integrated
systems planning; (2) rich biodiversity and natural ecosystems; and (3) low carbon urban
infrastructure and green infrastructure (see Figure 1). The valuable contribution of cities to the
global climate agenda is underscored, emphasizing the potential of the local context to change
behavior towards climate action and global sustainability. The economics of nature are outlined to
make the business case for greater use of nature‐based solutions in our cities and built environments
to positively exploit the ecosystem services for climate mitigation and adaptation as well as resource
efficiency. The important contribution of green infrastructure to sustainable urban development is
reviewed, particularly in support of urban ecosystems services and quality of life.
The paper also explores biophilia in the social‐ecological context to make a case for its role in
environmental stewardship and support of climate action. Climate action (or sustainable behavior)
for the purpose of this paper is defined as any action that reduces or supports emission reductions of
carbon and/or greenhouse gases (GHGs) as well as enhances the adaptive capacity of built
environments, populations groups, and communities to sustain climatic shocks. Accomplished
sustainable policy measures and initiatives are outlined for governments and research recommendations
are proposed for further investigation.
Figure 1. Conceptual framework: local climate action rubric (source: author).
2. The Role of Cities in Advancing Climate Action
Global human population is forecasted to reach nine billion by 2050, of which 70% will be
residing in urban environments. This trend, in and of itself, is a fundamental driver and multiplier of
human behaviors compounding the precarious climate change reality. A growing middle class,
accelerating consumerism and expanding urbanization are in juxtaposition to increased natural
resource demand, declining biodiversity and jeopardized public health.
Cities are well positioned to play an instrumental role in combatting the localized impacts of
climate change and significantly contribute to the global climate commitments. Cities can directly
effectuate change through greater engagement in peoples’ daily lives with an inherent
Figure 1. Conceptual framework: local climate action rubric (source: author).
The paper also explores biophilia in the social-ecological context to make a case for its role in
environmental stewardship and support of climate action. Climate action (or sustainable behavior) for
the purpose of this paper is defined as any action that reduces or supports emission reductions of carbon
and/or greenhouse gases (GHGs) as well as enhances the adaptive capacity of built environments,
populations groups, and communities to sustain climatic shocks. Accomplished sustainable policy
measures and initiatives are outlined for governments and research recommendations are proposed
for further investigation.
2. The Role of Cities in Advancing Climate Action
Global human population is forecasted to reach nine billion by 2050, of which 70% will be residing
in urban environments. This trend, in and of itself, is a fundamental driver and multiplier of human
behaviors compounding the precarious climate change reality. A growing middle class, accelerating
consumerism and expanding urbanization are in juxtaposition to increased natural resource demand,
declining biodiversity and jeopardized public health.
Cities are well positioned to play an instrumental role in combatting the localized impacts of
climate change and significantly contribute to the global climate commitments. Cities can directly
effectuate change through greater engagement in peoples’ daily lives with an inherent understanding
3. Sustainability 2016, 8, 254 3 of 21
of the socio-economic conditions and local vulnerabilities. Municipal responsibilities over key sectors,
including land use planning, buildings, urban infrastructure and services and local ecosystems can
influence lower emission trajectories and strengthen adaptive capacities, creating an urban context
and the choice architecture that can encourage human behavior towards sustainable actions and
lifestyles—ultimately the game changer in the climate agenda.
The UN Climate Summit in September 2014 affirmed the critical role of cities and their significant
GHGs reductions (8.0 Gt CO2e) possible by 2050 (Figure 2). These contributions come from three
core sectors, buildings, transport and waste; however, as illustrated below the emissions gap remains
critical and warrants additional aggressive (urban) action and commitments as recommended in this
paper to remain within the global carbon budget of 1000 Gt CO2 and the 2/1.5 ˝C tipping point
(Erickson and Tempest, 2015 [4]).
Sustainability 2016, 8, 254
understanding of the socio‐economic conditions and local vulnerabilities. Municipal responsibilities
over key sectors, including land use planning, buildings, urban infrastructure and services and local
ecosystems can influence lower emission trajectories and strengthen adaptive capacities, creating an
urban context and the choice architecture that can encourage human behavior towards sustainable
actions and lifestyles—ultimately the game changer in the climate agenda.
The UN Climate Summit in September 2014 affirmed the critical role of cities and their
significant GHGs reductions (8.0 Gt CO2e) possible by 2050 (Figure 2). These contributions come
from three core sectors, buildings, transport and waste; however, as illustrated below the emissions
gap remains critical and warrants additional aggressive (urban) action and commitments as
recommended in this paper to remain within the global carbon budget of 1000 Gt CO2 and the 2/1.5
°C tipping point (Erickson and Tempest, 2015 [4]).
Figure 2. Potential Urban Emissions Impact (Source: SEI/C40 2014, [5]).
The building sector remains the low hanging fruit for reducing urban and global emissions
(IPCC 2014 [6], Santiago Fink 2011 [7]). The rate and amount of construction, particularly in
emerging markets and developing countries presents a unique opportunity for cities to ensure the
built environment is low orcarbon neutral and contributes to the reduction in urban building GHG
emissions targets of 2.4 GtCO2e in 2030 and 4.5 GtCO2e in 2050 (Erickson and Tempest, 2014 [8]).
Emissions reductions in the sector can be further expanded with sustainable design and green
infrastructure applications, e.g., green roofs, to complement smart technologies supporting energy
efficiency and enhanced systems performance. New York City has committed to this path in its
PlaNYC/One NYC, forecasting a 30% reduction in GHG from retrofitting buildings for greater energy
performance by 2025 coupled by significant green jobs growth (Figure 3), and is an illustrative
model for other cities and their potential impact.
Figure 3. NYC Building Greenhouse Gases GHG Reductions (source: http://www.nyc.gov/html/
builttolast/pages/plan/plan.shtml [9]).
Figure 2. Potential Urban Emissions Impact (Source: SEI/C40 2014, [5]).
The building sector remains the low hanging fruit for reducing urban and global emissions (IPCC
2014 [6], Santiago Fink 2011 [7]). The rate and amount of construction, particularly in emerging markets
and developing countries presents a unique opportunity for cities to ensure the built environment is low
orcarbon neutral and contributes to the reduction in urban building GHG emissions targets of 2.4 GtCO2e
in 2030 and 4.5 GtCO2e in 2050 (Erickson and Tempest, 2014 [8]). Emissions reductions in the sector can
be further expanded with sustainable design and green infrastructure applications, e.g., green roofs, to
complement smart technologies supporting energy efficiency and enhanced systems performance. New
York City has committed to this path in its PlaNYC/One NYC, forecasting a 30% reduction in GHG from
retrofitting buildings for greater energy performance by 2025 coupled by significant green jobs growth
(Figure 3), and is an illustrative model for other cities and their potential impact.
Sustainability 2016, 8, 254
understanding of the socio‐economic conditions and local vulnerabilities. Municipal responsibilities
over key sectors, including land use planning, buildings, urban infrastructure and services and local
ecosystems can influence lower emission trajectories and strengthen adaptive capacities, creating an
urban context and the choice architecture that can encourage human behavior towards sustainable
actions and lifestyles—ultimately the game changer in the climate agenda.
The UN Climate Summit in September 2014 affirmed the critical role of cities and their
significant GHGs reductions (8.0 Gt CO2e) possible by 2050 (Figure 2). These contributions come
from three core sectors, buildings, transport and waste; however, as illustrated below the emissions
gap remains critical and warrants additional aggressive (urban) action and commitments as
recommended in this paper to remain within the global carbon budget of 1000 Gt CO2 and the 2/1.5
°C tipping point (Erickson and Tempest, 2015 [4]).
Figure 2. Potential Urban Emissions Impact (Source: SEI/C40 2014, [5]).
The building sector remains the low hanging fruit for reducing urban and global emissions
(IPCC 2014 [6], Santiago Fink 2011 [7]). The rate and amount of construction, particularly in
emerging markets and developing countries presents a unique opportunity for cities to ensure the
built environment is low orcarbon neutral and contributes to the reduction in urban building GHG
emissions targets of 2.4 GtCO2e in 2030 and 4.5 GtCO2e in 2050 (Erickson and Tempest, 2014 [8]).
Emissions reductions in the sector can be further expanded with sustainable design and green
infrastructure applications, e.g., green roofs, to complement smart technologies supporting energy
efficiency and enhanced systems performance. New York City has committed to this path in its
PlaNYC/One NYC, forecasting a 30% reduction in GHG from retrofitting buildings for greater energy
performance by 2025 coupled by significant green jobs growth (Figure 3), and is an illustrative
model for other cities and their potential impact.
Figure 3. NYC Building Greenhouse Gases GHG Reductions (source: http://www.nyc.gov/html/
builttolast/pages/plan/plan.shtml [9]).
Figure 3. NYC Building Greenhouse Gases GHG Reductions (source: http://www.nyc.gov/html/
builttolast/pages/plan/plan.shtml [9]).
4. Sustainability 2016, 8, 254 4 of 21
The building sector can also guide local resiliency by ensuring the siting of structures is not prone
to climatic hazards and support principles of environmental justice. Structural change through urban
planning and low-impact infrastructure development can deepen emissions levels (IPCC Synthesis
Report 2014, Erickson and Tempest, 2015 [4,6]) and when complemented with green infrastructure
and other natural design applications offer opportunities for broader social and physical resiliency.
Washington, DC (WDC) strongly advocates green roofs for storm water management and to support
energy conservation, evidenced by its 2015 inventory of over five million square feet, the equivalent of
58 acres (23.4 hectares). On average, a green roof in WDC retains 15 gallons (56.7 liters) of storm-water
per one square foot (0.09 square meter) of coverage or 50%–75% of rainfall on an annual basis
(Chesapeake Bay Foundation, 2008 [10]).
Urban development patterns and transportation networks lay the foundation for urban
sustainability or conversely the prolonged lock-in of carbon intensive trajectories. Sustainable urban
form has the potential to mitigate 20% of future carbon emissions compared to the BAU scenario
between 2015 and 2030 (Erickson and Tempest, 2015 [4]). Cities can thrive when land use in the central
business district (CBD) prioritizes housing and businesses rather than parking. In the USA on average
80% of CBD land area is used for parking (Manville and Shoup, 2004 [11]), with the average car being
parked 96% of the time (Heck, Rogers and Carroll, 2014 [12]). Cities with the enabling environment
both in the form of policy incentives and low carbon or carbon neutral urban infrastructure are better
placed to guide their citizenry towards sustainable behaviors and to help stem the anthropogenic
impact on the natural environment.
3. Importance of Urban Ecosystem Services
Cities benefit from valuable ecosystems services and can be rich in biodiversity (Beatley, 2011 [13]).
The multi-functionality of natural systems supports the triad of sustainability and demands of climate
change both to mitigate GHG emissions and enhance adaptive capacities making them among the most
cost effective solutions for climate challenges at the local scale (McPhearson et al., submitted [14]). As the
world becomes more urbanized, urban ecosystems will be all the more important to protect population
agglomerations and critical infrastructure as well as connect human beings with the natural environment
to cultivate attitudes and foster social norms towards nature conservation and sustainable lifestyles.
The services provided by natural ecosystems, categorized as: (1) provisioning services in their
creation of oxygen, food, water, raw materials; (2) regulating services for carbon capture and
sequestration, water management and waste water treatment, air purification, pollination, biological
control; (3) supporting services by providing habitat for flora and fauna and maintaining genetic diversity
and nutrient cycling; and (4) cultural services contributing to mental and physical health in human beings,
recreation/tourism, spiritual benefits (TEEB, 2011 [15]). These ecosystem services are highly valuable yet
still poorly understood and underutilized by governments and local decision-makers. The EU Green
Surge Project studied 20 city positions on green infrastructure, urban ecosystem services and biodiversity,
and found a gap between planning and adoption of practice, with Bristol and Barcelona standing out as
the most committed to holistic implementation. Abiding by the planning principles of: (1) connectivity
of (green) networks/hubs; (2) multi-functionality of ecosystem services; (3) integration with other
urban systems; and (4) multi-scale of implementation, proved challenging for city authorities to fully
comprehend and moreover to optimize the multi-functionality of nature’s palette of services. Climate
adaptation was recognized as a strategic function of green infrastructure for storm water management,
yet ecosystems’ cultural services for human health and wellbeing were weakly acknowledged and lesser
so operationalized. The Project does not address climate action on account of encouraged sustainable
behavior yet recognizes the potential impact of ecosystems services in a broader planning context
(Hansen and Pauleit, 2014 [16]).
Urban ecosystem services will need to play an increasing vital role as cities grow in population
size, with larger senior age cohorts, and heat up faster than any other settled topographies. The 2003
heat wave in Europe resulting in more than 70,000 deaths should be seen as an early warning of more
5. Sustainability 2016, 8, 254 5 of 21
severe climatic conditions to come, whereby global warming is a new public health threat (Robine et al.,
2008 [17]).
In the United States, heat is the greatest weather-related cause of human death as increasing
temperatures above 90 ˝F (32 ˝C), aggravate air pollution and ozone levels, resulting in greater health
risks, including respiratory illness, e.g., asthma, heart attacks, particularly among urban dwellers.
High GHG emissions compound temperature levels leading to forecasts of even higher U.S. summer
temperatures and health concerns in coming years (Kenward et al., 2014 [18]).
Greener cities are cooler cities and increasingly more economically strategic, in their management
of storm water and the urban heat island (UHI) effect, responsible for over 10 billion US dollars
annually in energy costs for cooling. Although other strategies exist for reducing surface temperatures,
predominately albedo coatings for roofs and walls, the multi-functionality of vegetation at the building
and city scale as carbon sinks as well as provider of valuable socioeconomic benefits that cannot be
matched. The use of albedo products may be more cost effective and appropriate in circumstances of
spatial and structural limitations, whereby hybrid solutions may optimize results.
The Urban Heat Island (UHI) concentration of higher temperatures in built up urban environments
also results in increased ozone toxicity in the air as well as damage to local water bodies. UHI can be
mitigated with the installation of green roofs and other urban vegetation at building and city scale
(Gorsevski, Virginia et al., 1998 [19]), Structural facade temperatures can be reduced by 1–2 ˝C at night
and 4–8 ˝C during the day with additional reductions of approximately 20% in energy consumption
for cooling (Katzschner, 2011 [20]) on account of green roofs. Green roofs can have significant impact in
high density or central business district areas with high impervious surfaces with recorded temperature
reductions averaging 7.6 ˝C (Gil, 2007 [21]) and can collectively have a significant impact on a city’s
adaptive capacities to climate change.
However, global trends are already compromising urban ecosystems and local biodiversity health
as well as societies’ potential for cost effective solutions to climate change and human wellbeing
(McPhearson et al. [14]. The Urban Heat Island effect has led to changes in local biodiversity with
increased insect populations and greater propensity of evasive plants (Parmesan, 2006 [22]; Parmesan
and Yohe 2003 [23]). Further climate change impacts on biodiversity have the potential to lead to
drought effects on wetlands, variable phenology of flora and fauna, and pressures on marine habitats
(Wilby and Perry, 2006 [24]; Hunt and Watkiss, 2011 [25]).
Therefore, the role of cities in natural resource management and local governance of ecosystems
is all the more critical. Cities can benefit from a growing network of institutional and NGOs actors
to strengthen efforts towards intra-municipal and multi-jurisdictional cooperation for preserving
urban biodiversity and ecological systems (Wilkinson et al., 2013 [26]). Broader engagement with
non-traditional stakeholders and managers of green spaces, such as golf courses, cemeteries, private
gardens can reinforce networks and raise awareness of their importance in supporting ecological
processes and contributing to climate action (Ernston et al., 2010 [27]). Strengthened social-ecological
systems are necessary to generate, preserve and maintain natural ecosystems (Andersson et al.,
2014 [28]) and can benefit from the availability of quantifiable data on water retention of wetlands,
infiltration by rain gardens, carbon sequestration of urban parks, among others to facilitate local
government planning processes and strengthen the business case for broader use of green infrastructure
in development projects (Tonneijck and Bade, 2011 [29]).
Green Infrastructure for Climate Impact
Governments at the local, national and multi-lateral levels are starting to recognize the climate
impact of green infrastructure (GI) policies. The European Commission in 2013, released a communication
on Green Infrastructure (GI), Enhancing Europe’s Natural Capital, wherein it advocates its use by
member states for both climate mitigation and adaptation. Green infrastructure, as defined by the
European Commission as “a strategically planned network of natural and semi-natural areas with other
environmental features designed and managed so as to deliver a wide range of ecosystem services”.
6. Sustainability 2016, 8, 254 6 of 21
The US Environment Protection Agency provides ample policy guidance and tools to local communities
to encourage the implementation of GI practices with a major focus on storm water management, yet
suggests integrated policies to optimize ecological as well as socioeconomic benefits. Ecosystem-based
adaptation has captured the attention of the UNFCCC as a resiliency strategy.
The incorporation of green infrastructure into the built environment and urban spaces bolsters
the services provided by local ecosystems and strengthens their regulating capacity to better manage
heat and precipitation hazards. Urban afforestation is an effective means to address climate impacts.
The US City of Baltimore has demonstrated the cost effectiveness of such policy actions by quantifying
the impact of its 2.8 million trees to reduce energy costs citywide by $3.3 million a year in addition to
storing 527 tons of carbon and removing 244 metric tons of ground-level ozone annually (American
Forests 2015 [30]). The American Forests organization has estimated a 1:4 cost ratio of tree investment to
economic and environmental return reiterating the importance and monetary value of nature. Mature
trees provide the greatest impact in the removal of particulate matter and cooling effects through
deposition and transpiration, underscoring the importance of urban trees (e.g., conifers and deciduous)
to reach stem diameters above 30 cm to improve PM10 capture (Tonneijck and Bade 2011 [29]). This has
been affirmed by US Conference of Mayors with the view that tree canopy is an essential part of a
city’s natural infrastructure for enhanced quality of life and sustainability and an important means for
carbon sequestration and climate protection.
Dar es Salaam benefits from local ecosystems with annual carbon sequestration of approximately
25% of per capita emissions, yet this service is being jeopardized through the loss of mature trees at an
annual rate of 11.3% (as per 2002–2008 data). Dar es Salaam epitomizes the challenges faced by rapidly
urbanizing cities (in this case 5% year), particularly in the Global South, that confront losses of farmland
(11%), green areas (29%), and riverine territory (60%), only to become increasingly at risk of flooding
at a business as usual (BAU) trajectory (Printz et al., 2015 [31]). Durban South Africa has recognized
the urgency of preserving its unique biodiversity in support of ecosystem-based adaptation and as
importantly to preserve the socioeconomic basis of its communities. Various policy measures have been
employed, including land acquisition for landscape connectivity, open space requirements in planning
processes and zoning and taxes to enhance land conservation management (Roberts et al., 2011 [32]).
Asian cities are also challenged with preserving and maintaining their green spaces due to economic
development pressures and the belief green infrastructure is a luxury, rather than a necessary for public
health. Jakarta is a tragic case illustrated by its precipitous loss of green space (targets) in its master
plan from initially 37%, down to 9.6% in 2010 (Said and Mansor, 2011 [33]), in spite of hazardous
air pollution. Singapore is a standout in the region for its commitment and innovation to preserve
its ecosystems and biodiversity through policy measures that incentivize creative urban design and
integrated building engineering, e.g., green walls, to overcome high density and land area constraints.
Singapore epitomizes the biophilic city in its use of nature-based solutions for climate adaptation and
mitigation with constructed wetlands and green corridors (Newman, 2011 [34]) as well as its commitment
to human and ecological wellbeing with the development of the Singapore Biodiversity Index [35].
Cities that prioritize ecosystem-based adaptation (EbA) through permeable pavements, green streets,
constructed wetlands, greenways among others, benefit from reduced urban flooding and improved
storm water management by reducing combined sewer overflows at a cost efficacy over traditional
grey infrastructure (ASLA 2012 [36]). Fairfax County Virginia USA assessed over 1000 square miles
(2590 km2) under the Urban Tree Coverage Project (UTC) and recorded 420 square miles (1088 km2) of
tree coveragethat generates approximately $6 billion annually in ecosystem service benefits to address
air pollution, energy conservation, and storm-water management. The Urban Tree Canopy (UTC) Project
is a partnership among the Chesapeake Bay Program, the Virginia Department of Forestry (VDOF), the
Virginia Geospatial Extension Program (VGEP) at Virginia Tech, and local communities with the goal to
assist jurisdictions with the tools and technical assistance to assess and protect their natural capital.
Integrating ecosystems into land use and spatial planning can enhance connectivity and nature’s
service distribution through green corridors to the urban periphery for temperature balance. Urban
7. Sustainability 2016, 8, 254 7 of 21
forests and parks function as valuable carbon sinks as well as lend to storm water management and
regulation of urban flooding during extreme weather events. The City of Copenhagen’s efforts to
fortify its parks for rainfall retention during more frequently occurring cloudbursts is an example of
local leadership employing nature-based solutions for climate action.
Increasing the percentage of green space at the urban scale, both through local ecosystems
preservation and use of green infrastructure, offers communities not only ecological and climatic
benefits but also significant socio-economic co-benefits. Greener cities provide more ecological cultural
services on account of urban parks and gardens for inhabitants to experience and reap the mental,
physical and spiritual benefits contributing to improved public health. Generally, experts recommend
urban green space of 20%–50% of total land area, while the World Health Organization (WHO) suggests
minimum of 9 m2 of green space per person as a more valuable metric. Analysis by the European
Environment Agency (EEA) indicates the majority (94%) of European cities in the EU-27 have between
10%–38% of green space (Figure 4). As important is the equitable access and proportional distribution
of green space and natural infrastructure throughout the urbanscape to optimize nature’s benefits
for human wellbeing, to advance environmental justice and strengthen the ecological benefits for the
immediate and surrounding ecosystems.
From a climate and resource efficiency perspective, the spatial configuration of green space is
particularly important to mitigate the urban heat island effect, conserve water and reduce energy
consumption. Cities with a combination of high percentage of green areas, high edge density
(distribution of the green space) and high patch density (number of green patches per unit area) can
more effectively respond to climate extremes such as heat waves and heavy precipitation (European
Environment Agency (EEA), 2015 [37]; Maimaitiyiming et al., 2014 [38]). This suggests policy and
urban planning should ideally prioritize connected green corridors of critical mass rather than a
multitude of fragmented green spaces. However, the total percentage of green space independently is
the most impactful for climate resiliency and in practice possibly the most feasible.
Sustainability 2016, 8, 254
balance. Urban forests and parks function as valuable carbon sinks as well as lend to storm water
management and regulation of urban flooding during extreme weather events. The City of
Copenhagen’s efforts to fortify its parks for rainfall retention during more frequently occurring
cloudbursts is an example of local leadership employing nature‐based solutions for climate action.
Increasing the percentage of green space at the urban scale, both through local ecosystems
preservation and use of green infrastructure, offers communities not only ecological and climatic
benefits but also significant socio‐economic co‐benefits. Greener cities provide more ecological
cultural services on account of urban parks and gardens for inhabitants to experience and reap the
mental, physical and spiritual benefits contributing to improved public health. Generally, experts
recommend urban green space of 20%–50% of total land area, while the World Health Organization
(WHO) suggests minimum of 9 m2 of green space per person as a more valuable metric. Analysis by
the European Environment Agency (EEA) indicates the majority (94%) of European cities in the
EU‐27 have between 10%–38% of green space (Figure 4). As important is the equitable access and
proportional distribution of green space and natural infrastructure throughout the urbanscape to
optimize nature’s benefits for human wellbeing, to advance environmental justice and strengthen
the ecological benefits for the immediate and surrounding ecosystems.
From a climate and resource efficiency perspective, the spatial configuration of green space is
particularly important to mitigate the urban heat island effect, conserve water and reduce energy
consumption. Cities with a combination of high percentage of green areas, high edge density
(distribution of the green space) and high patch density (number of green patches per unit area) can
more effectively respond to climate extremes such as heat waves and heavy precipitation (European
Environment Agency (EEA), 2015 [37]; Maimaitiyiming et al., 2014 [38]). This suggests policy and
urban planning should ideally prioritize connected green corridors of critical mass rather than a
multitude of fragmented green spaces. However, the total percentage of green space independently
is the most impactful for climate resiliency and in practice possibly the most feasible.
Figure 4. Green Space in EU‐27 (Sorce: [39]).
4. Biophilia and Connectedness to Nature
The natural environment provides a stimulating context for creativity and appreciation for life
(Wilson, 1984 [40]). “Healthy ecosystems are seen as shaping local identity, providing a sense of
place and fostering deeper insight into nature” (Yli‐Pelkonen et al., 2006 [41]), while time spent in
natural areas, particularly during childhood, is a key indicator of environmental action (Chawla,
2010 [42]).
A heighten sense of environmental consciousness (or connectedness) is an essential element of
the proposed climate rubric that views climate change with a broader lens beyond mitigation and
adaptation issues to also include sustainable consumption and production, sustainable
Figure 4. Green Space in EU-27 (Sorce: [39]).
4. Biophilia and Connectedness to Nature
The natural environment provides a stimulating context for creativity and appreciation for life
(Wilson, 1984 [40]). “Healthy ecosystems are seen as shaping local identity, providing a sense of place
and fostering deeper insight into nature” (Yli-Pelkonen et al., 2006 [41]), while time spent in natural
areas, particularly during childhood, is a key indicator of environmental action (Chawla, 2010 [42]).
A heighten sense of environmental consciousness (or connectedness) is an essential element of
the proposed climate rubric that views climate change with a broader lens beyond mitigation and
adaptation issues to also include sustainable consumption and production, sustainable development,
8. Sustainability 2016, 8, 254 8 of 21
biodiversity conservation and sustainable lifestyles to chart the road towards global sustainability
and keep within the impending two (2/1.5 ˝C) degree tipping point. A temperature increase of 2 ˝C
(or 3.6 ˝F) has been determined by the world’s scientists to be the point at which climate impacts, e.g.,
drought, sea level rise, become irreversible.
Human affinity with the natural environment and other living things is an integral part of an
individual’s life and our societal cultures that accentuates the concept of biophilia. This concept, put
forth by Harvard biologist, Edward O. Wilson, in his 1984 book Biophilia refers to human beings’
inherent relationship with nature for millennia. The Biophilia Hypothesis (1993) by Yale’s social
ecologist, Stephen R, Kellert, together with E.O. Wilson further elaborated the implications of biophilia
and its applications to other disciplines including architecture and health care (Lysack, 2010 [43],
Kellert, 1997 [44]). A recent Berlin study documented inhabitants professing a love of and demand for
nature to satisfy recreational interests, aesthetic desires, educational motivations, and spiritual notions
(Riechers et al., 2016 [45]).
The human species is part of the global biosphere and sources essential resources to live and
build homes, create businesses and grow communities with a rooted dependency on our planet’s
natural capital for evolution and sustainability. Climate change amplifies the risks of human alienation
from nature, all the while the exploitation of natural resources for production and economic growth
paradoxically deteriorates the essence of human wellbeing. However, harnessing the services of nature
to positively exploit the human–nature bond may be the most powerful means of ecological and
human preservation.
In many modern societies biophilia and the recognition of nature’s extensive values lays dormant.
Our present day context of sprawling settlements, enslaving technology, compulsive consumption,
and weak natural sciences educational curriculums account for much of this disconnection and apathy,
and yet at significant socio-economic and potentially irreversible environmental costs. The paucity
of teaching among American K-12 students about the benefits of nature and the human impact on
the natural environment (Earth Institute, 2006 [46]) coupled with the decline in high school seniors’
support of conservation (sustainable) behaviors between 1976–2005 (Wray-Lake et al., 2010, [47]), has
engendered a self-serving society with little regard for life-cycle processes; and worse so, an alarming
role model for developing countries.
Long term sustained climate action depends in part on re-connecting individuals and societies
with the natural capital that permeates our lives. A human sense of “connectedness” to the natural
environment shapes values and attitudes towards the biosphere (Schultz et al., 2004 [48]). In other
literature, the theory of “urgent biophilia” suggests individuals and communities are drawn to nature
and greening practices to restore human and physical states and promote healing in situ ations of
disaster (Tidball, 2012 [49]), therefore it is postulated biophilia in the proactive (rather than reactive)
sense may be cultivated to evoke environmentally sensitive behavior for climate resiliency, if not for
human survival. Aligned with such thinking, this paper advocates greening our cities to positively
exploit the ecosystem services and optimize the cultural services to catalyze inherent human biophilic
tendencies. The MillionTreesNYC [50] initiative uses tree planting as a “hook” to promote environmental
stewardship and support New York City’s sustainability plan. Cultivating connectedness to nature
may be facilitated at valued locations where individuals hold a sense of attachment and thus vested
interests in their preservation. This theory of “topophilia” supports the potential of human cultural-based
learning for sustainability and emphasizes that need for urban populations (Beery et al., 2015 [51]). This
paper’s argument is aligned with such thinking and suggests behavior change may be cultivated in a
localized (urban) context, wherein nature is prevalent and reinforced by low-carbon urban infrastructure
and policy that advocates sustainability and climate action. As human lives become progressively
technologically dependent and urbanized, the introduction of nature into human spaces is all the more
critical to abate the human–nature disconnection and minimize the tendency towards “environmental
generational amnesia” (Kahn et al., 2008 [52]).
9. Sustainability 2016, 8, 254 9 of 21
The Cost Effectiveness of Nature and Economics of Biophilia
Advancement of the climate change agenda and employing nature-based solutions towards this
aim is dependent in part on awareness of the economics.
A growing body of evidence demonstrates the valuable role and cost efficiencies of green
infrastructure for both climate mitigation and adaptation (EEA 2015, [37]). The Economics of Ecosystems
and Biodiversity (TEEB) global initiative has documented multiple country and urban level case
studies as well as the complementarily role of nature’s co-benefits for human wellbeing. Similarly,
the American Society of Landscape Architects (ASLA) has cataloged green infrastructure contributions
to natural systems and their confirmed support of climate measures by local authorities for their added
value to traditional grey infrastructure projects. Hybrid solutions that blend nature-based applications
with engineered systems may provide the optimal impact considering environmental footprints, land
requirements and cost expenditures, but can vary considerably depending on the hazards and level of risk
management (The Royal Society, 2014 [53]), TNC 2013 [54]). From the perspective of climate adaptation,
valuations exist to make the economic and business case for nature-based solutions. The ecosystems
making up Vietnam’s Can Gio Reserve provide coastal storm protection and other resiliency measures
for the local communities worth over US$151 million per year (Lehman, 2015 [55]) and are more cost
effective providing a holistic package of services compared to traditional grey infrastructure options.
The cost of human wellbeing is dependent on nature. A growing body of evidence demonstrates the
profound positive impact the natural environment brings to the individual in learning, medical and work
environments resulting in reduced stress, enhanced physiological levels, heighten mental capacities,
accelerated curative and restorative properties. Studies by Kaplan (1995 [56]), Kuo et al., (1998 [57], Kuo
and Sullivan ( 2001 [58]), and Frumkin (2003 [59]) as well as Roger Ulrich’s seminal study “View through
a Window May Influence Recovery from Surgery” (Science (1984 [60])) in which hospital patients covering
from gall bladder surgery experienced reduced curative times and required less pain medication on
account of simple views of trees from their room windows, underscore the powerful value of nature on
the human being. The pharmaceutical industry and health care establishments have been pioneers in
incorporating nature’s elements into their medicines and facilities to exploit the beneficial impact on the
human body and reducing medical costs. Architects and designers have started to embrace biophilic
design for building construction initiated by Roger Ulrich’s work in “evidence-based design”, whereby
quantitative data and baseline measurements have demonstrated the benefits of incorporating natural
elements into building systems and interior spaces for human wellbeing. This line of work is promoting
the business case for nature-based solutions across various sectors and disciplines seeking to optimize
human and ecological benefits and project cost-effectiveness.
Incorporating green infrastructure and natural elements into building design and planning spaces with
nature provides the means to educate individuals and acclimate societies to the socio-economic benefits
and wellbeing nature can deliver throughout all aspects of human life (Kellert et al., 2011 [61]) (Table 1).
It is this learning process, fueled by anecosystem’s cultural services, that reinforces the local climate action
rubric, with an increased propensity for environmental stewardship and sustainable behaviors.
10. Sustainability 2016, 8, 254 10 of 21
Table 1. Economic Benefits of Biophilic Design (source: Terrapin Bright Green, LLC (2012) [62]).
Sector Design Element Human/Societal Benefit Economic Benefits/Year
Business/Office Views of Nature
Increased productivity;
reduced stress
$3.6 million/employer
Medical–Hospitals–Health
Care
Views of Nature
Reduced hospital stays
after surgery; restoration
of physiological/mental
states
$93,324,031/year (industry savings)
Education Daylighting
Heighten cognitive
capacities
7%–26% improved test scores (The Alliance
for Excellent Education (2007 [63])
estimates that if the students who had
dropped out of the class of 2007 had
graduated high school, the national
economy would have benefited from
an additional $329 billion in income over
their lifetimes.)
Real Estate, residential
Access to park
(500 m)
Restoration of
physiological and mental
states; leisure, recreation,
relaxation
5% premium in residential prices;
$2200/person saving to health care
industry to address obesity
Retail Daylighting Positive environment 40% increased sales
Criminal Justice
Views/simulations
to/of nature
Reduced aggression,
stress and violence
52% fewer felonies (of public housing
residents); approx. $162,200 savings/yr
by State (Illinois)
5. Behavioral Change towards Climate Action
Behavioral change is a function of human habits and conscious decision-making, and in the
case of environmental action, reinforced by awareness, accessibility, affordability, technologies, social
norms, and biophilia (Kurz et al., 2015 [64]; Stieninger, 2013 [65]; Santiago Fink, 2011 [7]). Changing
individual and societal behavior towards climate action depends upon both upstream (macro level)
and downstream (individual) interventions. Social psychologists and social practice experts both
acknowledge the importance of context in shaping behavior (Kurz et al., 2015 [64]). Context in the form
of regulation and policies as well the biophysical and built environments are fundamental in guiding
individual actions and, because of their macro/meso level implications, engaging societies towards
collective impact (of behavior) towards climate action. Social environmental learning promoted by
local leadership, information dissemination, community-based social marketing and fiscal incentives
can cultivate social norms and sustainable behaviors (McKenzie-Mohr, Doug and Smith, William,
1999 [66]) and may influence political decision-making towards economic instruments such as carbon
pricing to further advance climate solutions (World Bank, 2015 [67]). The urban context, defined
by its morphology, biodiversity, mobility choices and built infrastructure, impacts inhabitants on a
daily basis. Cities that offer its citizenry a choice architecture that promotes connectivity of urban
systems and services, coupled with green corridors and buttressed by low-carbon modes of mobility
for walking, bicycling, bus rapid transit (BRT) and rail, are better positioned to foster sustainable
behaviors and lifestyles as evidenced further below in Table 2. In the context of increasing urbanization,
environments without nature pose even greater challenges to promote environmental awareness,
ecological conservation and sustainable practices (Riechers et al., 2016 [45]). The time is ripe for local
authorities and city planners to amplify nature and its equitable accessibility in urban environments,
while optimizing (cultural) ecosystem services, to strengthen the ecological-social interconnections
paramount in fostering climate action.
Transportation accessibility is a cornerstone of a sustainable urban environment and dictates
the viability of a sustainable lifestyle on the basis that transport emissions representthe fastest
growing sector and are expected to double by 2035 (Dulac, 2013 [68]; IPCC, 2014 [6]) In today’s
rapidly urbanizing world, true commitment to climate change mandates a low-carbon trajectory for
11. Sustainability 2016, 8, 254 11 of 21
mobility infrastructure (Nakamuraand Hayashi, 2014 [69]) to optimize spatial layout and systems
configuration with a socio-economic and environmental lens. Policy interventions are understood in
the behavioral literature as context destabilizers that create windows of opportunity to disrupt habitual,
business as usual practices, largely based on attitudes, values, and norms, and introduce deliberate
decision-making on the part of the individual. Changing ingrained personal habits, for example to use
public transit, is more probable during periods of routine change, e.g., new employment, re-location,
(Kurz et al., 2015 [64]). This coincides with the author’s climate action rubric which underscores
the importance of pre-empted urban investments in low-carbon transport infrastructure and city
(and metropolitan) level incentives, e.g., transit subsidies, to encourage and guide behavior change.
Similarly, public investment in pedestrian infrastructure and access to green areas is necessary to
cultivate, broad-based public support for the general protection and governance of ecosystems (Pyle,
1993 [70], Millennium Ecosystem Assessment, 2005 [71], Miller, 2005 [72]).
The policy and regulatory context cannot be avoided and provides the essential framework for
equitable and effective climate action implementation without which a tragedy of the commons is
the current reality and inevitable future without essential behavior change. The macro level context
must also be exemplified by institutional action that demonstrates government and public actors
leading by example, a vital lesson learned during the UK government’s behavioral change strategy
(Fudge and Peters, 2011 [73]). Political leadership to introduce a congestion tax in various European
cities has reduced the number of automobiles on the road, by 12% in the case of Gothenburg Sweden.
In Ljubljana, its car-free city center has heightened the quality of life and led to the re-election of
its visionary yet practical mayor. Leading by public example is a powerful means of social learning
and promoter of sustainable behavior at the individual and institutional levels (Reed et al., 2010 [74];
Wray-Lake et al., 2010 [47])
Education is an equally important driver of sustainability, particularly at the primary and
secondary school levels, for cultivating future generations to respect and live in balance with the
natural environment (Lysack, 2010 [43]). However, at present, less than 25% of children globally
complete secondary school (UN 2012 [2] undermining the resiliency potential of our present and
future societies.
The consumer market is an aggressive driver of behavioral change. Growing global consumerism is
amongst the root causes of natural resource depletion and contributors toclimate instability. The demand
for goods will only increase as Brazil, Russia, India and China (the BRICS) and other emerging
economies continue to grow and develop. Therefore, a complementary global challenge is to re-direct
production processes towards nature-based sustainable practices that embrace resource efficiency, life
cycle assessments and biomimicry to decouple economic development from environmental degradation
and mitigate climate impact. The UK experience recognized the need for a concerted commitment among
all parties, involving government, industry/private sector and consumers/households to effectuate
sustained change towards low-carbon lifestyles (Fudge and Peters, 2011 [73]).
Channeling the consumer market towards sustainable/green commodities offers a tremendous
opportunity to nudge behavior to support climate action. A 2015 10,000-person sample survey
indicated the consumers of the world’s nine largest economies are willing to support sustainability
and opt for companies engaged in sustainable production practices and committed to corporate
social responsibility. More optimistic is the trend among consumers of the acknowledgement of
their personal responsibility for sustainable action and willingness to compromise ownership or
quality in support of ecological and social purposes (Cone Communications, 2015 [75]). The Cone
survey complements a global survey (n = 62) conducted by the author, wherein a sense of personal
commitment to take climate/environmental action was highly recorded, both through participating in a
planning process and willingness to pay for urban ecosystems for environmental protection. The author
survey’s purpose was stakeholder input for the Urban Climate Change Researchers Network (UCCRN)
ARC2-3 2015-6 publication for the Paris COP21, which explored the current public awareness of the
nature–climate link for the chapter on Urban Ecosystems and Biodiversity. The indications of personal
12. Sustainability 2016, 8, 254 12 of 21
commitment are positive rallying points for further research to guide development of policy, fiscal and
planning instruments for behavior change towards climate action.
Role of Technology in Shaping Sustainable Behavior
In present day, the role technology and social media play in influencing (environmental) behavior
cannot be under estimated and could easily be a separate paper. In support of the current argument,
suffice to say technology’s capacities, e.g., participatory sensing tools, applications, among others,
can allow planners and researchers to better understand the impact of the cultural ecosystem
services on the individual and society (MacKerron and Mourato, 2013 [76]). In addition it facilitates
communication by cities to engage their citizenry in a shared sense of purpose in shaping a sustainable
and resilient city through positive messaging of Mother Nature’s free benefits for ecological and
human wellbeing. An attitudinal trend among American high school seniors, whereby technology is
highly seen as the solution to environmental problems, interestingly reinforcing their environmental
commitment (Wray-Lake et al., 2010 [47]) as well as an understanding of how the technology-driven
shared/collaborative economy can advance climate action, offers valuable research promise.
6. Climate Impact on Wellbeing and Quality of Life
Health is a sensitive tipping point and key determinate of quality of life. As climate change
becomes increasingly viewed in the context of public health, the quality of life in cities will be an
important indicator of their prosperity. Environmental conditions and infrastructure services have
taken high importance among the various city rating systems. Such urban metrics influence corporate
investment and human resource decisions and can have serious implications for local governments.
Cities that do not meet basic health standards run the risk of losing foreign direct investment and
the presence of transnational corporations that monitor the work environments of their employees.
Pollution, public services, transportation, and the natural environment are among the rating factors
used by Mercer’s Location Evaluation and Quality of Living Reports. Similarly, the Economist
Liveability Ranking weights environment and cultural aspects as 25% of their total score, with climate
and temperature as prominent contributing indicators. Infrastructure and its services contribute
20% with public transportation being a key parameter. The Siemens Green City Index categorizes
cities based upon resource consumption, ecological supporting behaviors and carbon emissions per
capita. The world’s top ranked cities for quality of life provide the institutions, infrastructure facilities
and ecological conditions that are conducive to economic growth and illustrative of high levels of
sustainable societal behavior (Table 2). Most are intermediate size cities with a compact urban form
supported by an integrated network of public transport infrastructure and ample amount of green
space that create the basis for a harmonious and healthy quality of life (Bieri, 2013 [77]). Further
investigation would reveal the advantages of European urban morphologies and energy sources that
are reflected in lower CO2 emissions and higher sustainable behavior indicators attributable in large
part to public policy shifts and low-carbon urban infrastructure investments after the 1970s energy
crisis; however, this is beyond the scope of this paper.
Public health concerns can serve as a common denominator to unite differences across the climate
agenda and engage population groups in finding common ground for sustainable climate action.
Galvanizing broader political and public support lies in raising awareness of the climate—health
linkage and the multiplicity of benefits nature-based solutions can contribute to creating low-carbon
well-planned communities for healthy and sustainable quality of life. An urban environment that
supports a balanced co-existence between nature and its built infrastructure provides the upstream
context to influence human behavior and encourage sustainable lifestyles that underpin long-term
climate stability.
13. Sustainability 2016, 8, 254 13 of 21
Table 2. Quality of life and environmental indicators—overview of select cities.
City
City Rankings of Quality of Life by:
-Mercer’s City Quality of Living 2015 (global)
-Economist Liveability Rankings 2014 (global)
-Siemens European Green City Index 2009
Pop. (2015)
CO2 Tonnes
per Capita
Green Space: %
of Total Area
Sustainable Behaviors of
Citizens: % of Walking,
Cycling or Taking Public
Transport to Work
Sustainable
Behavior of City:
% Recycled
Municipal Waste
PM10/PM2.5
(EEA) **
Vienna
#1 Mercer (since 2011)
#2 Economist
#4 Siemens
1.8 m 5.19 27.20% 68% 33.35% 27/19
Zurich
#2 Mercer
#6 Siemens
377 K
3.70
(estimated)
(24%) 62% 34% 20/14
Vancouver
#5 Mercer
#3 Economist
#2 Siemens (in North America)
603 K 4.2 11.7% 24.5% 60% (est.) 4.9 PM2.5+
Copenhagen
#9 Mercer
#1 Siemens
1.2 m 5.38 17.50% 68% 23.61% 12/17
Melbourne #1 Economist (since 2011) 4.4 m 17.7 * 22% (tree canopy) 22% 62% 14.8 PM2.5#
Source: author; Data sets referenced: Siemens Green Index, Mercer, European Commission; Cities listed were ranked in at least two of the three indices in the top 10, with the exception
of Melbourne that was included due to its longevity ranked #1 by the Economist Global Liveability Rankings; * [78]; + [79]; # [80]; ** EEA = European Environment Agency; PM =
particulate matter in micrometers.
14. Sustainability 2016, 8, 254 14 of 21
7. Conclusion and Recommendations
We are at a cross roads in human development. Years of anthropogenic exploitation of Mother
Nature are manifesting in significant costs to human lives, economic assets and natural capital.
Global population is nearing nine billion, with urban populations projected at 6.3 billion by 2050
(Gouldson et al. [81] 2015), and exerting prohibitive pressures on the natural environment while
jeopardizing the basic resources individuals and societies need to survive. The globally adopted
UN Sustainable Development Goals (SDGS) are an imperative call to action for governments and
societies to pursue a sustainable trajectory in how we plan, source and live our lives within planetary
boundaries. In the aftermath of the Paris Conference of the Parties (COP21), national governments
will be obliged to transpose the climate agreements into policies and programs that incentivize timely
implementation to preserve our natural ecosystems, and in doing so, harness their services to lay the
road for closing the emissions gap and safeguarding human prosperity.
Sustainable cities, represented by SDG #11, encapsulate many if not all the other development
goals in a microcosm that offers amongst the best opportunities to advance in parallel climate action
and global sustainability. These international agendas intersect in urban environments that house
the world’s population agglomerations, critical infrastructure and economic hubs, and therefore
represent the ideal economies of scale to cultivate the societal behavior change essential for long lasting
climate stability.
Cities can harness the power of its citizens and natural capital for the urgency needed to expedite
the incremental multi-lateral climate processes. Local policy makers can shape the regulatory context
through planning and investment decisions that prioritize low-carbon/impact infrastructure and
nature-based solutions as integral elements of a local climate action rubric to meet adaptation and
mitigation needs. In turn nature’s invaluable ecosystems services (co-benefits) can foster the betterment
of local socio-economic conditions and lay the foundation for sustainable behaviors. Environmental
awareness and action is in part the result of contact with the natural environment in everyday life
(Chawla, 2010 [42]); promoting it at scale will require the greening of our cities, public spaces, and
built environments, wherein urban planning will need to play an instrumental role in embedding
green infrastructure principles into development practices (Benedict, Mark, McMahon, and Edward,
2001 [82]).
Nature-based solutions provide the essential services to contribute substantially to mitigate carbon
emissions and enhance adaptive capacities. Simultaneously, nature provides the ecosystem cultural
services to enhance human health and well-being. In a policy context that supports greener cities
heighten environmental consciousness and stewardship is cultivated and can potentially promote
sustainable behavior change on account of awaken biophila. Limited empirical evidence and the
challenges of measuring biophilia have necessitated an exploratory review of the association of
biophilia and climate action. It is therefore introduced in the broader context illustrated in the local
climate rubric with the understanding that individual and societal behaviors are a function of multiple
factors but human sustainability solely one—Mother Nature.
8. Policy and Research Recommendations
A forward thinking and supportive policy context is fundamental to advancing the global climate
and sustainability goals. Cities can be instrumental in contributing to both agendas.
The following policy recommendations are put forth to better position cities and optimize their
contributions. Some specific recommendations for cities are found in Appendix (Table A1).
- Strengthen national level policy engagement with sub-national and city governments, promoting
vertical integration, on the climate change and sustainable development agendas.
- Allow access to sub-national governments and non-state actor partnerships to international
financing and capacity building mechanisms.
15. Sustainability 2016, 8, 254 15 of 21
- Support cross-sector and multi-disciplinary programming at the national levels that fund and
facilitate implementation of integration of urban systems planning, infrastructure development
and operations at the sub-national and city levels.
- Mandate environmental education curriculums at all academic levels, starting with primary
school through university; incentivize learning institutions to become models of sustainability by
optimizing structural space for renewable energy, storm water management, energy efficiency,
urban agriculture, and local knowledge sharing
- Support cities in data collection, monitoring, reporting and verification (MRV) of socio-economic
and ecological indicators
- Incorporate natural ecosystem valuations and impact assessments into development projects;
- Monetize the value of urban ecosystems services as part of a local awareness raising and call to
action campaign
- Enforce sustainable land use planning and integrated systems design, adopting local ordinances
to promote renewable energy, green infrastructure, inter-connected multi-modal transport
infrastructure, net zero energy buildings
- Optimize the restoration, equitable distribution and governance of urban ecosystems and green
spaces; support networks and encourage participation of non-traditional actors; support the
creation of green jobs and small businesses for the maintenance of green spaces.
- Provide incentives for nature-based urban innovations and biomimicry research that meet the
needs of local communities and sectors
Better understanding the drivers of behavioral change for climate action is a continuous process
in light of changing demographic trends, political landscapes and technological advancements.
Additional research is needed to learn how to effectively catalyze biophilia at the individual and societal
levels and channel it towards tangible actions that culminate in sustainable lifestyles. The following
research recommendations are suggested to further explore the human–nature nexus for the benefit of
advancing environmental preservation, climate action and sustainable human development:
- Understand the effects of different types of (public) green space on the individual and potential
impact of cultural ecosystem services to foster behavior change in support of climate and
sustainable actions.
- Explore the level of personal responsibility towards global sustainability and willingness to pay
or compromise in support of ecological and socio-economic aims.
- Investigate the impact of biophilic design on building end-users with the aim to understand the
degree of environmental awareness and sustainable behavior and its spillover, if any, to other
aspects of an individual’s life.
- Record citizen understanding of urban ecosystems and their services in select cities to gage a
willingness to pay for nature-based and low-carbon/impact solutions for addressing climate
change and sustainability concerns.
- Better understand the degree of personal connectedness to nature and what that means for the
individual in terms of their daily actions and lifestyle choices.
- Further investigate the climate–health relationship to understand the impacts of intersecting
agendas on individual and societal behavior towards climate action.
Acknowledgments: To the perseverance of humans and nature.
Conflicts of Interest: The author declares no conflict of interest.
16. Sustainability 2016, 8, 254 16 of 21
Appendix
Table A1. Climate action rubric (and accelerator)—priorities for local governments.
Sector Strategies/Actions Climate Action Outcomes and Benefits City Resources
Urban Planning and Policy
Land use and spatial planning for
compact development; mixed—uses;
transit oriented development (TOD);
urban systems integration; connectivity
of services; higher densities; street
design; zero waste; sustainable transport;
renewable energy Prioritize brown field
development Public lighting: change to
LEDs/ CFLs, sensor lighting
Mitigation of energy demand and
reduced GHGs; Adaptation and
resiliency; Mitigation of energy use;
reduced resource (land) consumption
http://www.sfclimateaction.org/
https://nextcity.org/daily/entry/dublin-ban-cars-city-
center-city-council-vote
http://baltimoredevelopment.com/for-business/
assistance-programs-tax-credits/brownfield-tax-credit/
http://corporativo.codensa.com.co/EN/PRENSA/
COMUNICADOS/Pages/CODENSAandUaespcompleted
Bogot%C3%A1'sFirstLEDPublicLightingSystem.aspx
http://www.bogotahumana.gov.co/article/localidad-
kennedy-recibe-nuevas-luminarias-p%C3%BAblicas-en-
el-sector-plaza-am%C3%A9ricas
Urban Ecosystems
Use of green infrastructure; install green
roofs (and facades), plant street trees,
protect and maintain urban parks and
forests; create pocket pockets and green
corridors; Eco-systems based adaptation
with green infrastructure and hybrid
systems; Ecosystems conservation
and management
Mitigation of energy demand and
reduced GHGs; Adaptation: storm water
management; Behavior Change;
Sustainable Lifestyles Biodiversity
conservation Food security Water and
air purification
http://www.teebweb.org/publication/teeb-manual-for-
cities-ecosystem-services-in-urban-management/
http://water.epa.gov/infrastructure/greeninfrastructure/
gi_funding.cfm http://www.gicinc.org/
17. Sustainability 2016, 8, 254 17 of 21
Table A1. Cont.
Sector Strategies/Actions Climate Action Outcomes and Benefits City Resources
Low-Carbon/Impact Development
Transport
Low-carbon/hybrid multi-modal
transportation: public transit (metro,
light rail, BRT, bus circulators); bike
share, car to go, technology apps (Uber,
Lyft); pedestrian, biking infrastructure
Mitigation of GHGsPublic Health
https://www.itdp.org/our-cities-ourselves-principles-for-
transport-in-urban-life/ http://www.godcgo.com/
Buildings
Retrofit public inventories for high
energy efficiency of residential,
commercial, industrial buildings; trade
in out dated appliances; installation of
green roofs and green alleys: green
building codes Green municipal
government operations and office spaces;
Mitigation of GHGs Adaptation and
Resiliency Food security
http://www.chicagoclimateaction.org/
http://www.nyc.gov/html/gbee/html/plan/plan.shtml
Waste
5 Rs, re/up-cycling,
http://thegreeningofwestford.com/
2014/04/5-rs-refuse-reduce-reuse-
repurpose-recycle.html Waste to
energy models
Mitigation of GHGs, Green Economy,
Behavior/Lifestyle Change
http://www.wienenergie.at/eportal2/ep/channelView.do/
pageTypeId/72164/channelId/-51715
Source: author with references from: CDP Cities 2012, [83]; US Conference of Mayors, [84].
18. Sustainability 2016, 8, 254 18 of 21
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