IT PLATFORM AS A TOOL FOR IMPROVING SOCIAL AWARENESS IN THE FIELD OF CLIMATE CHANGE AND PROTECTION OF THE ENVIRONMENT

Resumo Numa época em que as alterações climáticas ganharam relevância e causaram níveis de apreensão social sem precedentes, o objetivo do projeto ClimAdaPT.Local valorizou a integração da dimensão climática nos processos municipais de planeamento. Com base num inquérito por questionário aplicado em três rondas consecutivas, este artigo centra-se nas respostas de um grupo de técnicos municipais que, em conjunto com a equipa promotora do projeto, desenvolveu Estratégias Municipais de Adaptação às Alterações Climáticas. Com foco principal na evolução dos respondentes, no que diz respeito à aquisição de conhecimentos e à mobilização e capacitação ao longo do desenvolvimento do projeto, as principais conclusões serão aqui apresentadas. Abstract In an era where climate change gained relevance and caused the highest levels of social awareness, the main objective of ClimAdaPT.Local project valued the integration of the climate dimension in municipal planning processes. Based on a questionnaire survey applied in three consecutive rounds throughout the project, this article focuses on the responses of a group of municipal officers who, together with the ClimAdaPT.Local team, developed Municipal Strategies for Adaptation to Climate Change. With the focus on the respondents' evolution concerning acquisition of knowledge, mobilization and awareness, and capacity building throughout the project, the main conclusions will be presented here.

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Environmental awareness: The case of climate change

Russian Journal of Economics ◽

10.3897/j.ruje.4.33619 ◽

2018 ◽

Vol 4 (4) ◽

pp. 328-345 ◽

Cited By ~ 2

Author(s):

Shlomo Weber ◽

Hans Wiesmeth

Keyword(s):

Climate Change ◽

Formal Model ◽

Public Awareness ◽

Empirical Relationship ◽

Public Support ◽

Social Awareness ◽

Economic Wealth ◽

Contribution Game ◽

Mitigate Climate Change ◽

Global Reduction

The extent of provision of a public good often relies on social awareness and public support for it. This applies, in particular, to global reduction of greenhouse gases and its relevance for mitigating climate change. We examine the concept of “public awareness” by introducing a formal model that analyzes efforts to mitigate climate change in a setting with heterogeneous countries. In the theoretical part we examine the Nash equilibrium of the contribution game. The effects of awareness and economic parameters on mitigation efforts can be disentangled, raising the possibility of linking awareness of climate change with economic wealth. The second part provides some empirical observations and offers the rankings of countries regarding awareness for climate change, as well as an empirical relationship between awareness and economic wealth.

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Averting robo-bees: why free-flying robotic bees are a bad idea

Emerging Topics in Life Sciences ◽

10.1042/etls20190063 ◽

2019 ◽

Vol 3 (6) ◽

pp. 723-729

Author(s):

Roslyn Gleadow ◽

Jim Hanan ◽

Alan Dorin

Keyword(s):

Climate Change ◽

Computer Simulation ◽

Food Security ◽

European Countries ◽

Plant Interactions ◽

Plant Insect Interactions ◽

Native Habitat ◽

Insect Pollinators ◽

Insect Interactions

Food security and the sustainability of native ecosystems depends on plant-insect interactions in countless ways. Recently reported rapid and immense declines in insect numbers due to climate change, the use of pesticides and herbicides, the introduction of agricultural monocultures, and the destruction of insect native habitat, are all potential contributors to this grave situation. Some researchers are working towards a future where natural insect pollinators might be replaced with free-flying robotic bees, an ecologically problematic proposal. We argue instead that creating environments that are friendly to bees and exploring the use of other species for pollination and bio-control, particularly in non-European countries, are more ecologically sound approaches. The computer simulation of insect-plant interactions is a far more measured application of technology that may assist in managing, or averting, ‘Insect Armageddon' from both practical and ethical viewpoints.

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Modelling ecosystem adaptation and dangerous rates of global warming

Emerging Topics in Life Sciences ◽

10.1042/etls20180113 ◽

2019 ◽

Vol 3 (2) ◽

pp. 221-231 ◽

Cited By ~ 4

Author(s):

Rebecca Millington ◽

Peter M. Cox ◽

Jonathan R. Moore ◽

Gabriel Yvon-Durocher

Keyword(s):

Climate Change ◽

Global Warming ◽

Diffusion Rate ◽

Individual Species ◽

Genetic Evolution ◽

Rates Of Change ◽

Rapid Climate Change ◽

Warming Climate ◽

Intraspecies Competition ◽

High Trait

Abstract We are in a period of relatively rapid climate change. This poses challenges for individual species and threatens the ecosystem services that humanity relies upon. Temperature is a key stressor. In a warming climate, individual organisms may be able to shift their thermal optima through phenotypic plasticity. However, such plasticity is unlikely to be sufficient over the coming centuries. Resilience to warming will also depend on how fast the distribution of traits that define a species can adapt through other methods, in particular through redistribution of the abundance of variants within the population and through genetic evolution. In this paper, we use a simple theoretical ‘trait diffusion’ model to explore how the resilience of a given species to climate change depends on the initial trait diversity (biodiversity), the trait diffusion rate (mutation rate), and the lifetime of the organism. We estimate theoretical dangerous rates of continuous global warming that would exceed the ability of a species to adapt through trait diffusion, and therefore lead to a collapse in the overall productivity of the species. As the rate of adaptation through intraspecies competition and genetic evolution decreases with species lifetime, we find critical rates of change that also depend fundamentally on lifetime. Dangerous rates of warming vary from 1°C per lifetime (at low trait diffusion rate) to 8°C per lifetime (at high trait diffusion rate). We conclude that rapid climate change is liable to favour short-lived organisms (e.g. microbes) rather than longer-lived organisms (e.g. trees).

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