To see the other types of publications on this topic, follow the link: Reduce climate impact.
Books on the topic 'Reduce climate impact'
Create a spot-on reference in APA, MLA, Chicago, Harvard, and other styles
Consult the top 29 books for your research on the topic 'Reduce climate impact.'
Next to every source in the list of references, there is an 'Add to bibliography' button. Press on it, and we will generate automatically the bibliographic reference to the chosen work in the citation style you need: APA, MLA, Harvard, Chicago, Vancouver, etc.
You can also download the full text of the academic publication as pdf and read online its abstract whenever available in the metadata.
Browse books on a wide variety of disciplines and organise your bibliography correctly.
1
United States. Congress. Senate. Committee on Environment and Public Works. Global climate change: Hearings before the Committee on Environment and Public Works, United States Senate, One Hundred Fifth Congress, first session on reviewing the effects of greenhouse gases on global weather conditions and assessing international policy options to reduce the negative impacts of climate change, July 10 and 17, 1997. Washington: U.S. G.P.O., 1998.
Find full text
2
United States. Congress. Senate. Committee on Environment and Public Works. Global climate change: Hearings before the Committee on Environment and Public Works, United States Senate, One Hundred Fifth Congress, first session on reviewing the effects of greenhouse gases on global weather conditions and assessing international policy options to reduce the negative impacts of climate change, July 10 and 17, 1997. Washington: U.S. G.P.O., 1998.
Find full text
3
Global climate change: Hearings before the Committee on Environment and Public Works, United States Senate, One Hundred Fifth Congress, first session on reviewing the effects of greenhouse gases on global weather conditions and assessing international policy options to reduce the negative impacts of climate change, July 10 and 17, 1997. Washington: U.S. G.P.O., 1998.
Find full text
4
EIA analysis of draft climate change legislation: Hearing before the Committee on Energy and Natural Resources, United States Senate, One Hundred Tenth Congress, first session, on analysis recently completed by the Energy Information Administration, "Energy market and economic impacts of a proposal to reduce greenhouse gas intensity with a cap and trade system," January 24, 2007. Washington: U.S. G.P.O., 2007.
Find full text
5
1923-, Walker Charls E., Bloomfield Mark A, Thorning Margo, American Council for Capital Formation. Center for Policy Research., and American Council for Capital Formation., eds. The impact of climate change policy on consumers: Can tradable permits reduce the cost? Washington, D.C: American Council for Capital Formation, Center for Policy Research, 1998.
Find full text
6
Levy, Barry S., and Jonathan A. Patz. Climate Change. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780190662677.003.0032.
Full textAbstract:
Environmental consequences of climate change include increases in temperature as well as frequency, severity, and/or duration of heat waves; heavy precipitation events; intensity and/or duration of drought; intense tropical cyclone activity, and sea level. Adverse health consequences of climate change include heat-related disorders, respiratory disorders, allergic disorders, vector-borne diseases, waterborne and foodborne disease, and injuries related to extreme weather events. Adverse health consequences also include indirect effects of climate change on health related to decreased agriculture yields and food shortages, distress migration, and collective violence. In addition, all of the consequences of climate change can adversely affect the mental health of individuals, communities, and entire nations. The primary ways of addressing climate change are mitigation (policies and actions to stabilize or reduce the emission of greenhouse gases) and adaptation (policies and actions to reduce the impact of climate change). Building popular and political will to address climate change is essential.
7
Brown, Abbe EL. Intellectual Property and Climate Change. Edited by Rochelle Dreyfuss and Justine Pila. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198758457.013.34.
Full textAbstract:
This chapter discusses the current and potential impact of intellectual property (IP) on efforts to manage and reduce climate change through technological development. To that end it considers international IP and environment treaties (notably the TRIPS Agreement, the United Nations Framework Convention on Climate Changes and its Kyoto Protocol and Paris Agreement, and the Aarhus Convention) and the extent to which their objectives can and do intersect or conflict. Particular reference is made to discussions at the TRIPS Council and to the activities of WIPO Green. It explores possible ways to increase the role of IP in addressing climate change issues, including limiting the availability of patents, fast-tracking certain patent applications, and promoting IP exploitation models based on sharing rather than control. Finally, it explores the benefits to be gained in developing the relationship between IP and climate change by looking more widely, to human rights and competition laws.
8
Bogojević, Sanja. Climate Change Law and Policy in the European Union. Edited by Kevin R. Gray, Richard Tarasofsky, and Cinnamon Carlarne. Oxford University Press, 2016. http://dx.doi.org/10.1093/law/9780199684601.003.0029.
Full textAbstract:
This chapter is concerned with EU’s climate change law and its impact on climate change action at a global level. It investigates whether the international climate change regime ‘tightens’ its own standards so as to match EU climate change law. The corpus of EU climate change law is codified in the Climate and Energy Package, which aims to provide a comprehensive and integrated climate change framework. It includes measures promoting the use of renewable energy, specifying and thus helping to monitor and reduce greenhouse gases from fuel, setting standards for new passenger cars, establishing a framework for the geological storage of carbon dioxide, outlining the effort of Member States to reduce greenhouse gases to meet the 2020 commitments, as well as revising the EU emissions trading regime (ETS).
9
McElroy, Michael B. Energy and Climate. Oxford University Press, 2016. http://dx.doi.org/10.1093/oso/9780190490331.001.0001.
Full textAbstract:
The climate of our planet is changing at a rate unprecedented in recent human history. The energy absorbed from the sun exceeds what is returned to space. The planet as a whole is gaining energy. The heat content of the ocean is increasing; the surface and atmosphere are warming; mid-latitude glaciers are melting; sea level is rising. The Arctic Ocean is losing its ice cover. None of these assertions are based on theory but on hard scientific fact. Given the science-heavy nature of climate change, debates and discussions have not played as big a role in the public sphere as they should, and instead are relegated to often misinformed political discussions and inaccessible scientific conferences. Michael B. McElroy, an eminent Harvard scholar of environmental studies, combines both his research chops and pedagogical expertise to present a book that will appeal to the lay reader but still be grounded in scientific fact. In Energy and Climate: Vision for the Future, McElroy provides a broad and comprehensive introduction to the issue of energy and climate change intended to be accessible for the general reader. The book includes chapters on energy basics, a discussion of the contemporary energy systems of the US and China, and two chapters that engage the debate regarding climate change. The perspective is global but with a specific focus on the US and China recognizing the critical role these countries must play in addressing the challenge of global climate change. The book concludes with a discussion of initiatives now underway to at least reduce the rate of increase of greenhouse gas emissions, together with a vision for a low carbon energy future that could in principle minimize the long-term impact of energy systems on global climate.
10
Romsom, Etienne, and Kathryn McPhail. Capturing economic and social value from hydrocarbon gas flaring: evaluation of the issues. 5th ed. UNU-WIDER, 2021. http://dx.doi.org/10.35188/unu-wider/2021/939-6.
Full textAbstract:
Atmospheric emissions urgently need to reduce for natural gas to fulfill its potential role in the energy transition to achieve the Paris Agreement on climate change. This paper establishes the magnitude and trends of flaring and venting in oil and gas operations, as well as their emissions and impact on air quality, health, and climate. While global flaring and venting comprise 7.5 per cent of natural gas produced, their combined impact on health and climate (in terms of Social Cost of Atmospheric Release) accounts for 54 per cent. Many low- and middle-income countries are economically dependent on oil and gas production. Most premature deaths from air pollution in 2016 were in developing countries. Most natural gas losses and emissions are avoidable. If all natural gas flared and vented globally is captured and brought to market, it could supply annually more than the total South and Central America gas consumption, plus all of Africa’s power needs. If 75 per cent of these volumes are captured, it provides an additional natural gas sales value of US$36 billion per annum (assuming an average gas price of US$4/MMBtu).
11
Heyward, Clare. Ethics and Climate Adaptation. Edited by Stephen M. Gardiner and Allen Thompson. Oxford University Press, 2016. http://dx.doi.org/10.1093/oxfordhb/9780199941339.013.42.
Full textAbstract:
In the context of climate policies, adaptation as a response to climate change aims not to prevent environmental impacts but to reduce the effects of the physical changes on key interests. Therefore, it is necessary to consider what kinds of things—what interests—should adaptation seek to protect from the effects of climate change. Any account of justice in adaptation must take a position on what interests adaptation measures should protect. The increasing convention in discourses on adaptation is to assume that protection of basic material interests of individuals is the proper goal of adaptation. Occasionally, it has been mooted that policies to safeguard economic interests can also count as adaptation. This chapter suggests that an interest in secure cultural identity is also relevant and that adaptation policies should take it into account.
12
Räisänen, Jouni. Future Climate Change in the Baltic Sea Region and Environmental Impacts. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190228620.013.634.
Full textAbstract:
The warming of the global climate is expected to continue in the 21st century, although the magnitude of change depends on future anthropogenic greenhouse gas emissions and the sensitivity of climate to them. The regional characteristics and impacts of future climate change in the Baltic Sea countries have been explored since at least the 1990s. Later research has supported many findings from the early studies, but advances in understanding and improved modeling tools have made the picture gradually more comprehensive and more detailed. Nevertheless, many uncertainties still remain.In the Baltic Sea region, warming is likely to exceed its global average, particularly in winter and in the northern parts of the area. The warming will be accompanied by a general increase in winter precipitation, but in summer, precipitation may either increase or decrease, with a larger chance of drying in the southern than in the northern parts of the region. Despite the increase in winter precipitation, the amount of snow is generally expected to decrease, as a smaller fraction of the precipitation falls as snow and midwinter snowmelt episodes become more common. Changes in windiness are very uncertain, although most projections suggest a slight increase in average wind speed over the Baltic Sea. Climatic extremes are also projected to change, but some of the changes will differ from the corresponding change in mean climate. For example, the lowest winter temperatures are expected to warm even more than the winter mean temperature, and short-term summer precipitation extremes are likely to become more severe, even in the areas where the mean summer precipitation does not increase.The projected atmospheric changes will be accompanied by an increase in Baltic Sea water temperature, reduced ice cover, and, according to most studies, reduced salinity due to increased precipitation and river runoff. The seasonal cycle of runoff will be modified by changes in precipitation and earlier snowmelt. Global-scale sea level rise also will affect the Baltic Sea, but will be counteracted by glacial isostatic adjustment. According to most projections, in the northern parts of the Baltic Sea, the latter will still dominate, leading to a continued, although decelerated, decrease in relative sea level. The changes in the physical environment and climate will have a number of environmental impacts on, for example, atmospheric chemistry, freshwater and marine biogeochemistry, ecosystems, and coastal erosion. However, future environmental change in the region will be affected by several interrelated factors. Climate change is only one of them, and in many cases its effects may be exceeded by other anthropogenic changes.
13
Sheppard, Charles. 8. Climate change and reefs. Oxford University Press, 2014. http://dx.doi.org/10.1093/actrade/9780199682775.003.0008.
Full textAbstract:
Reefs are more affected by the damaging consequences of climate change than any other ecosystem. ‘Climate change and reefs’ illustrates how the impacts of climate change add on to, and synergistically multiply, the harmful effects of local disease and pollution. Warming of the seas and an increase of intense light overload the photosynthetic mechanism and symbiotic algae die. When these are expelled, the coral appears bleached and may die if conditions continue. The increase of carbon dioxide in the atmosphere also leads to acidification of the oceans, which reduces the amount of carbonate available to corals for limestone deposition. Severely damaged or destroyed reefs will erode, which means they can no longer act as breakwaters for island communities.
14
Frankham, Richard, Jonathan D. Ballou, Katherine Ralls, Mark D. B. Eldridge, Michele R. Dudash, Charles B. Fenster, Robert C. Lacy, and Paul Sunnucks. Global climate change increases the need for genetic management. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198783398.003.0014.
Full textAbstract:
Adverse genetic impacts on fragmented populations are expected to accelerate under global climate change. Many populations and species may not be able to adapt in situ, or move unassisted to suitable habitat. Management may reduce these threats by augmenting genetic diversity to improve the ability to adapt evolutionarily, by translocation, including that outside the species’ historical range (assisted colonization) and by ameliorating non-genetic threats. Global climate change amplifies the need for genetic management of fragmented populations.
15
Walker, Rae, and Wendy Mason, eds. Climate Change Adaptation for Health and Social Services. CSIRO Publishing, 2015. http://dx.doi.org/10.1071/9781486302536.
Full textAbstract:
Climate Change Adaptation for Health and Social Services addresses concerns from the health and community services sector, including local government, about how to respond to climate change and its impacts on communities.
What should an intervention framework for the community-based health and social services sector contain and how can it complement an organisation's core values, role and work programs? What current direct and indirect impacts of climate change are most relevant to organisations and the communities they serve? Which population groups are most vulnerable to climate change and what are the impacts on them? Above all, what can be done to reduce the current risks from climate change to clients, communities and organisations?
Written by expert researchers and practitioners, this book presents existing research, innovative practice and useful tools to support organisations taking practical steps towards adaptation to the impacts of climate change on people. It examines the evidence of climate change impacts on six of the most vulnerable population groups – people with disability; older people; women and children; Aboriginal people; rural people; and people from culturally and linguistically diverse backgrounds – as well as discussing effective interventions. Other key issues covered include health and social impacts of climate change, adaptation, mitigation, climate change communication, organisational adaptation and a case study of innovation illustrating some of the book’s themes.
Accessible, informative and incorporating extensive evidence and experience, Climate Change Adaptation for Health and Social Services is relevant for anyone within the health and community services sector concerned about climate change and its impacts on their community.
16
Fleurke, Floor M. Catastrophic Climate Change, Precaution, and the Risk/Risk Dilemma. Oxford University Press, 2017. http://dx.doi.org/10.1093/acprof:oso/9780198795896.003.0011.
Full textAbstract:
Whilst the seriousness of a given problem may call for immediate and targeted intervention, the ensuing uncertain impacts on other elements of inter-connected systems may be equally deleterious. Climate change is a prime example of such a risk/risk dilemma. The risk of inaction must be weighed against the risk of resorting to increasingly tempting responses to mitigate or adapt to the effects of climate change. The precautionary principle might offer some guidance in this risk/risk arena. Precaution is a tool to deal with uncertain risks without dictating outcomes. Although it is commonly associated with a negative regulatory tilt, it can also serve to warrant and mandate the use of, for example, a new technology or substance in order to reduce risks. This chapter explores the dilemma of risk/risk trade-offs in the face of potentially catastrophic climate change, and examines the contours of a precautionary regulatory response to such impasses.
17
Kucharski, Fred, and Muhammad Adnan Abid. Interannual Variability of the Indian Monsoon and Its Link to ENSO. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190228620.013.615.
Full textAbstract:
The interannual variability of Indian summer monsoon is probably one of the most intensively studied phenomena in the research area of climate variability. This is because even relatively small variations of about 10% to 20% from the mean rainfall may have dramatic consequences for regional agricultural production. Forecasting such variations months in advance could help agricultural planning substantially. Unfortunately, a perfect forecast of Indian monsoon variations, like any other regional climate variations, is impossible in a long-term prediction (that is, more than 2 weeks or so in advance). The reason is that part of the atmospheric variations influencing the monsoon have an inherent predictability limit of about 2 weeks. Therefore, such predictions will always be probabilistic, and only likelihoods of droughts, excessive rains, or normal conditions may be provided. However, even such probabilistic information may still be useful for agricultural planning. In research regarding interannual Indian monsoon rainfall variations, the main focus is therefore to identify the remaining predictable component and to estimate what fraction of the total variation this component accounts for. It turns out that slowly varying (with respect to atmospheric intrinsic variability) sea-surface temperatures (SSTs) provide the dominant part of the predictable component of Indian monsoon variability. Of the predictable part arising from SSTs, it is the El Niño Southern Oscillation (ENSO) that provides the main part. This is not to say that other forcings may be neglected. Other forcings that have been identified are, for example, SST patterns in the Indian Ocean, Atlantic Ocean, and parts of the Pacific Ocean different from the traditional ENSO region, and springtime snow depth in the Himalayas, as well as aerosols. These other forcings may interact constructively or destructively with the ENSO impact and thus enhance or reduce the ENSO-induced predictable signal. This may result in decade-long changes in the connection between ENSO and the Indian monsoon. The physical mechanism for the connection between ENSO and the Indian monsoon may be understood as large-scale adjustment of atmospheric heatings and circulations to the ENSO-induced SST variations. These adjustments modify the Walker circulation and connect the rising/sinking motion in the central-eastern Pacific during a warm/cold ENSO event with sinking/rising motion in the Indian region, leading to reduced/increased rainfall.
18
Fitzpatrick, Matthew C., and Aaron M. Ellison. Estimating the exposure of carnivorous plants to rapid climatic change. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198779841.003.0028.
Full textAbstract:
Climatic change likely will exacerbate current threats to carnivorous plants. However, estimating the severity of climatic change is challenged by the unique ecology of carnivorous plants, including habitat specialization, dispersal limitation, small ranges, and small population sizes. We discuss and apply methods for modeling species distributions to overcome these challenges and quantify the vulnerability of carnivorous plants to rapid climatic change. Results suggest that climatic change will reduce habitat suitability for most carnivorous plants. Models also project increases in habitat suitability for many species, but the extent to which these increases may offset habitat losses will depend on whether individuals can disperse to and establish in newly suitable habitats outside of their current distribution. Reducing existing stressors and protecting habitats where numerous carnivorous plant species occur may ameliorate impacts of climatic change on this unique group of plants.
19
Windust, Allan. Waterwise House and Garden. CSIRO Publishing, 2003. http://dx.doi.org/10.1071/9780643069831.
Full textAbstract:
This practical guide shows how we can contribute to conserving water, our most precious resource, in our home and garden.
Waterwise House and Garden takes a planned approach to saving water in the home using different household reticulation options including the use of rainwater tanks and recycling greywater. It shows how to eliminate unnecessary watering in the garden by working with nature to create a garden that is both enjoyable and sensitive to the environment.
It explains the science behind survival strategies of plants in dry conditions, shows how soil and water interact, and demonstrates how to improve the soil in your garden. Included is an extensive list of native and exotic plants that are tolerant to dry conditions in both tropical and temperate climates.
The result is an accessible and informative resource guaranteed to help you reduce the environmental impact of everyday living, and dramatically reduce your household water bill in the process.
Shortlisted in TAFE Vocational Education category in the 2003 Awards for Excellence in Educational Publishing.
20
Romanowski, Nick. Planting Wetlands and Dams. CSIRO Publishing, 2009. http://dx.doi.org/10.1071/9780643098008.
Full textAbstract:
Wetland planting can bring back biodiversity, reduce the impact of drought and flood, improve water quality and conserve beauty in a mismanaged landscape. Planting Wetlands and Dams is a step-by-step, plain language guide to the creation of conditions in which wetland plants will thrive, from design and construction to collecting plants, seeds and propagation.
Completely revised and expanded, this new edition includes comprehensive information for around 200 genera of wetland plants from Tasmania to the tropics, complemented by more than 60 new colour photographs. It discusses the modification and improvement of existing dams, new lining materials available, and planning for plant and animal habitat needs. It provides updated information on legal requirements as well as significant exotic weeds, and examines the pros and cons of establishing new wetlands in dry climates.
21
Crane, Hewitt, Edwin Kinderman, and Ripudaman Malhotra. A Cubic Mile of Oil. Oxford University Press, 2010. http://dx.doi.org/10.1093/oso/9780195325546.001.0001.
Full textAbstract:
One cubic mile of oil (CMO) corresponds very closely to the world's current total annual consumption of crude oil. The world's total annual energy consumption - from all energy sources- is currently 3.0 CMO. By the middle of this century the world will need between 6 and 9 CMO of energy per year to provide for its citizens. Adequate energy is needed remove the scourge of poverty and provide food, clothing, and shelter for the people around the world, and more will be needed for measures to mitigate the potential effects of climate change such as building dikes and desalinating water. A Cubic Mile of Oil describes the various energy sources and how we use them, projects their future contributions, and delineates what it would take to develop them to annually produce a CMO from each of them. The requirement for additional energy in the future is so daunting that we will need to use all resources. We also examine how improved efficiency and conservation measures can reduce future demand substantially, and help distinguish approaches that make a significant impact as opposed to merely making us feel good. Use of CMO eliminates a multitude of units like tons of coal, gallons of oil, and cubic feet of gas; obviates the need for mind-numbing multipliers such as billions, trillions, and quadrillions; and replaces them with an easy-to-understand volumetric unit. It evokes a visceral response and allows experts, policy makers and the general public alike to form a mental picture of the magnitude of the challenge we face. In the absence of an appreciation of the scale of the problem, we risk squandering efforts and resources in pursuing options that will not meet tomorrow's global energy needs. We must make critical choices, and a common understandable language is essential for a sustained meaningful dialog.
22
Laplaze, Laurent, Francesca Sparvoli, Khaled Masmoudi, and Charles Thomas Hash, eds. The World population will reach 9 billion by 2050, with the majority of this growth occurring in developing countries. On the other hand, one in nine of the World's population suffers from chronic hunger, the vast majority of which live in developing countries. We therefore need to find new and sustainable solutions to feed this increasing population and alleviate the predicted negative impact of global changes on crop production. This e-Book deals with new strategies to improve food security and livelihoods in rural communities, reduce vulnerability, increase resilience and mitigate lthe impact of climate change and land degradation on agriculture. This collection of 18 articles addresses the major abiotic factors limiting crop production worldwide, how to characterize and exploit the available plant biodiversity to increase production and sustainability in agrosystems, and the use of beneficial microbes to improve production and reduce the use of fertilizers and pesticides. Frontiers Media SA, 2018. http://dx.doi.org/10.3389/978-2-88945-444-0.
Full text
23
Steinberg, Paul F. Who Rules the Earth? Oxford University Press, 2015. http://dx.doi.org/10.1093/oso/9780199896615.001.0001.
Full textAbstract:
Worldwide, half a million people die from air pollution each year-more than perish in all wars combined. One in every five mammal species on the planet is threatened with extinction. Our climate is warming, our forests are in decline, and every day we hear news of the latest ecological crisis. What will it really take to move society onto a more sustainable path? Many of us are already doing the "little things" to help the earth, like recycling or buying organic produce. These are important steps-but they're not enough. In Who Rules the Earth?, Paul Steinberg, a leading scholar of environmental politics, shows that the shift toward a sustainable world requires modifying the very rules that guide human behavior and shape the ways we interact with the earth. We know these rules by familiar names like city codes, product design standards, business contracts, public policies, cultural norms, and national constitutions. Though these rules are largely invisible, their impact across the planet has been dramatic. By changing the rules, Ontario, Canada has cut the levels of pesticides in its waterways in half. The city of Copenhagen has adopted new planning codes that will reduce its carbon footprint to zero by 2025. In the United States, a handful of industry mavericks designed new rules to promote greener buildings, and transformed the world's largest industry into a more sustainable enterprise. Steinberg takes the reader on a series of journeys, from a familiar walk on the beach to a remote village deep in the jungles of Peru, helping the reader to "see" the social rules that pattern our physical reality and showing why these are the big levers that will ultimately determine the health of our planet. By unveiling the influence of social rules at all levels of society-from private property to government policy, and from the rules governing our oceans to the dynamics of innovation and change within corporations and communities-Who Rules the Earth? is essential reading for anyone who understands that sustainability is not just a personal choice, but a political struggle.
24
Horne, Ralph E., Tim Grant, and Karli Verghese. Life Cycle Assessment. CSIRO Publishing, 2009. http://dx.doi.org/10.1071/9780643097964.
Full textAbstract:
Life Cycle Assessment (LCA) has developed in Australia over the last 20 years into a technique for systematically identifying the resource flows and environmental impacts associated with the provision of products and services. Interest in LCA has accelerated alongside growing demand to assess and reduce greenhouse gas emissions across different manufacturing and service sectors.
Life Cycle Assessment focuses on the reflective practice of LCA, and provides critical insight into the technique and how it can be used as a problem-solving tool. It describes the distinctive strengths and limitations of LCA, with an emphasis on practice in Australia, as well as the application of LCA in waste management, the built environment, water and agriculture. Supported by examples and case studies, each chapter investigates contemporary challenges for environmental assessment and performance improvement in these key sectors.
LCA methodologies are compared to the emerging climate change mitigation policy and practice techniques, and the uptake of ‘quick’ LCA and management tools are considered in the light of current and changing environmental agendas. The authors also debate the future prospects for LCA technique and applications.
25
James, Harrison. Saving the Oceans Through Law. Oxford University Press, 2017. http://dx.doi.org/10.1093/law/9780198707325.001.0001.
Full textAbstract:
The oceans provide many vital ecosystem services for humankind, but the health of the world’s seas is in serious decline. The protection of the marine environment has emerged as one of the most pressing challenges for the international community. An effective solution depends upon the cooperation of all states towards achieving agreed objectives. International law plays a vital role in this process. This book provides a critical assessment of the international legal instruments that have been negotiated for the protection of the marine environment and identifies key trends in global ocean governance. Starting with a detailed analysis of the United Nations Convention on the Law of the Sea, the book explains and evaluates the main global and regional treaties and related instruments that seek to prevent, reduce, and control damage to the marine environment caused by navigation, seabed exploitation, fishing, dumping, geo-engineering, and land-based activities, as well as emerging pressures such as ocean noise, ocean acidification, and climate change. The book demonstrates how international institutions have expanded their mandates to address a broader range of marine environmental issues and to promote an ecosystems approach to regulation. It also discusses the development of diverse regulatory tools to address anthropogenic impacts on the marine environment and the extent to which States have adopted a precautionary approach in different maritime sectors. Whilst many advances have been made, the book highlights the need for greater coordination between international institutions, as well as the desirability of developing stronger enforcement mechanisms for international environmental rules.
26
Hopke, Jill E., and Luis E. Hestres. Communicating about Fossil Fuel Divestment. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190228620.013.566.
Full textAbstract:
Divestment is a socially responsible investing tactic to remove assets from a sector or industry based on moral objections to its business practices. It has historical roots in the anti-apartheid movement in South Africa. The early-21st-century fossil fuel divestment movement began with climate activist and 350.org co-founder Bill McKibben’s Rolling Stone article, “Global Warming’s Terrifying New Math.” McKibben’s argument centers on three numbers. The first is 2°C, the international target for limiting global warming that was agreed upon at the United Nations Framework Convention on Climate Change 2009 Copenhagen conference of parties (COP). The second is 565 Gigatons, the estimated upper limit of carbon dioxide that the world population can put into the atmosphere and reasonably expect to stay below 2°C. The third number is 2,795 Gigatons, which is the amount of proven fossil fuel reserves. That the amount of proven reserves is five times that which is allowable within the 2°C limit forms the basis for calls to divest.The aggregation of individual divestment campaigns constitutes a movement with shared goals. Divestment can also function as “tactic” to indirectly apply pressure to targets of a movement, such as in the case of the movement to stop the Dakota Access Pipeline in the United States. Since 2012, the fossil fuel divestment movement has been gaining traction, first in the United States and United Kingdom, with student-led organizing focused on pressuring universities to divest endowment assets on moral grounds.In partnership with 350.org, The Guardian launched its Keep it in the Ground campaign in March 2015 at the behest of outgoing editor-in-chief Alan Rusbridger. Within its first year, the digital campaign garnered support from more than a quarter-million online petitioners and won a “campaign of the year” award in the Press Gazette’s British Journalism Awards. Since the launch of The Guardian’s campaign, “keep it in the ground” has become a dominant frame used by fossil fuel divestment activists.Divestment campaigns seek to stigmatize the fossil fuel industry. The rationale for divestment rests on the idea that fossil fuel companies are financially valued based on their resource reserves and will not be able to extract these reserves with a 2°C or lower climate target. Thus, their valuation will be reduced and the financial holdings become “stranded assets.” Critics of divestment have cited the costs and risks to institutional endowments that divestment would entail, arguing that to divest would go against their fiduciary responsibility. Critics have also argued that divesting from fossil fuel assets would have little or no impact on the industry. Some higher education institutions, including Princeton and Harvard, have objected to divestment as a politicization of their endowments. Divestment advocates have responded to this concern by pointing out that not divesting is not a politically neutral act—it is, in fact, choosing the side of fossil fuel corporations.
27
Lazarus, Philip J., Shannon Suldo, and Beth Doll, eds. Fostering the Emotional Well-Being of our Youth. Oxford University Press, 2020. http://dx.doi.org/10.1093/med-psych/9780190918873.001.0001.
Full textAbstract:
Fostering the Emotional Well-Being of Our Youth: A School-Based Approach is an edited work that details best practices in comprehensive school mental health services based upon a dual-factor model of mental health that considers both psychological wellness and mental illness. In the introduction, the editors respond to the question: Are our students all right? Then, each of the text’s 24 chapters (five sections) describes empirically sound and practical ways that professionals can foster supportive school climates and implement evidence-based universal interventions to promote well-being and prevent and reduce mental health problems in young people. Topics include conceptualizing and framing youth mental health through a dual-factor model; building culturally responsive schools; implementing positive behavior interventions and supports; inculcating social-emotional learning within schools impacted by trauma; creating a multidisciplinary approach to foster a positive school culture and promote students’ mental health; preventing school violence and advancing school safety; cultivating student engagement and connectedness; creating resilient classrooms and schools; strengthening preschool, childcare and parenting practices; building family–school partnerships; promoting physical activity, nutrition, and sleep; teaching emotional self-regulation; promoting students’ positive emotions, character, and purpose; building a foundation for trauma-informed schools; preventing bullying; supporting highly mobile students; enfranchising socially marginalized students; preventing school failure and school dropout; providing evidence-based supports in the aftermath of a crisis; raising the emotional well-being of students with anxiety and depression; implementing state-wide practices that promote student wellness and resilience; screening for academic, behavioral, and emotional health; and accessing targeted and intensive mental health services.
28
Fuss, Sabine. The 1.5°C Target, Political Implications, and the Role of BECCS. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190228620.013.585.
Full textAbstract:
The 2°C target for global warming had been under severe scrutiny in the run-up to the climate negotiations in Paris in 2015 (COP21). Clearly, with a remaining carbon budget of 470–1,020 GtCO2eq from 2015 onwards for a 66% probability of stabilizing at concentration levels consistent with remaining below 2°C warming at the end of the 21st century and yearly emissions of about 40 GtCO2 per year, not much room is left for further postponing action. Many of the low stabilization pathways actually resort to the extraction of CO2 from the atmosphere (known as negative emissions or Carbon Dioxide Removal [CDR]), mostly by means of Bioenergy with Carbon Capture and Storage (BECCS): if the biomass feedstock is produced sustainably, the emissions would be low or even carbon-neutral, as the additional planting of biomass would sequester about as much CO2 as is generated during energy generation. If additionally carbon capture and storage is applied, then the emissions balance would be negative. Large BECCS deployment thus facilitates reaching the 2°C target, also allowing for some flexibility in other sectors that are difficult to decarbonize rapidly, such as the agricultural sector. However, the large reliance on BECCS has raised uneasiness among policymakers, the public, and even scientists, with risks to sustainability being voiced as the prime concern. For example, the large-scale deployment of BECCS would require vast areas of land to be set aside for the cultivation of biomass, which is feared to conflict with conservation of ecosystem services and with ensuring food security in the face of a still growing population.While the progress that has been made in Paris leading to an agreement on stabilizing “well below 2°C above pre-industrial levels” and “pursuing efforts to limit the temperature increase to 1.5°C” was mainly motivated by the extent of the impacts, which are perceived to be unacceptably high for some regions already at lower temperature increases, it has to be taken with a grain of salt: moving to 1.5°C will further shrink the time frame to act and BECCS will play an even bigger role. In fact, aiming at 1.5°C will substantially reduce the remaining carbon budget previously indicated for reaching 2°C. Recent research on the biophysical limits to BECCS and also other negative emissions options such as Direct Air Capture indicates that they all run into their respective bottlenecks—BECCS with respect to land requirements, but on the upside producing bioenergy as a side product, while Direct Air Capture does not need much land, but is more energy-intensive. In order to provide for the negative emissions needed for achieving the 1.5°C target in a sustainable way, a portfolio of negative emissions options needs to minimize unwanted effects on non–climate policy goals.
29
The purpose of this project is to identify and analysis the ways of increasing the volume of FDI in Pakistan. The whole work consists of two different approaches. The first approach is the identification of the main barrier to invest in Pakistan. In this section, the researcher is looking for the reasons why Pakistan is not making full use of its investment potential. Is it because of the ineffectiveness of Government promotion and facilitation or because of a difficult investment? Can the political and economic situation be considered stable in Pakistan? Does the inefficiency of the legal system establish negative impacts on the investment climate of Pakistan? What is the level of corrupt bureaucracy, and security situation and how does Pakistan take to improve the investment climate in the country? On the basis of such analysis, the researcher makes recommendations to Pakistan on how it can reduce the barriers to increased inward FDI volume. dublin,irish american university of ireland: LAP LAMBERT Academic Publishing, 2012.
Find full text