Mitigation of global warming involves taking actions to reduce greenhouse gas emissions and to enhance sinks aimed at reducing the extent of global warming. This is in distinction to adaptation to global warming, which involves taking action to minimize the effects of global warming. Scientific consensus on global warming, together with the precautionary principle and the fear of non-linear climate transitions, is leading to increased effort to develop new technologies and sciences and carefully manage others in an attempt to mitigate global warming. In order to make a significant change, coal from Australia needs to be replaced with alternatives. Carbon capture and storage in Australia has been put forward as a solution for production of clean hydrogen from natural gas. Following the introduction of government mandatory renewable energy targets, more opportunities have opened up for renewable energy technologies such as wind power, photovoltaics, and solar thermal technologies. The deployment of these technologies provides opportunities for mitigating greenhouse gases. A carbon price was introduced on 1 July 2012 by the government of Julia Gillard with the purpose of reducing Australia 's carbon emissions. It requires large businesses (defined as those with annual carbon dioxide equivalent emissions over 25,000 tonnes annually) to pay a price for emissions permits. The tax was scrapped by the Abbott government in July 2014 in what was a widely criticized and highly publicized move.
The economic impact of a 60% reduction of emissions by 2050 was modeled in 2006 in a study commissioned by the Australian Business Roundtable on Climate Change.[1] The World Resources Institute identifies policy uncertainty and over-reliance on international markets as the top threats to Australia's GHG mitigation.[2]
Map of Australian renewable power plants. By Historicair - Own work based on: Australian Government Department of Resources, Energy and Tourism 2008 report + Windmill.svg by maix + Sun.svg by Bcjordan, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=15480364
Internationally, Australia contributed to the creation of the Asia Pacific Rain Forest Partnership, International Coral Reef Initiative, International Partnership for Blue Carbon, Mission Innovation, Clean Energy Ministerial Forum, International Solar Alliance, and the Kigali Amendment to the Montreal Protocol.[3] The government has also provided $1 billion to assist developing countries in reducing GHG emissions, partly through the United Nations Framework Convention on Climate Change Green Climate Fund. Australia's scientists also provide data on climate, emissions, impacts, and mitigation options for the Intergovernmental Panel on Climate Change assessments.
Under the Paris Agreement, Australia has committed to reducing emission by 26-28% below 2005 levels. This would mean reducing emissions by half per capita and by two-thirds across the economy. The Department of Environment and Energy noted in a 2017 review that no one policy could achieve what multiple, sector-specific ones have. This approach has manifested in Australia meeting its first Kyoto Protocol target. Australia is now bound to reducing emissions to at least 5% by 2020 under the Copenhagen Accord and Cancun Agreements and .5% less than 1990 levels by 2020 under their second target for the Kyoto Protocol.
After contributing to the development of, then signing but not ratifying the Kyoto Protocol, action to address climate change was coordinated through the Australian Greenhouse Office. The Australian Greenhouse Office released the National Greenhouse Strategy in 1998. The report recognized climate change was of global significance and that Australia had an international obligation to address the problem. In 2000 the Senate Environment, Communications, Information Technology and the Arts References Committee conducted an inquiry that produced The Heat is On: Australia's Greenhouse Future.[4]
One of Australia's first national attempt to reduce emissions was the voluntary-based initiative called the Greenhouse Challenge Program which began in 1995.[5] A collection of measures which focused on reducing the environmental impacts of the energy sector were released by Prime Minister John Howard on 20 November 1997 in a policy statement called Safeguarding Our Future: Australia's Response to Climate Change.[6] One measure was the establishment of the Australian Greenhouse Office, which was set up as the world's first dedicated greenhouse office in April 1998.[7]
Domestically, the Clean Energy Act 2011 addresses GHG with an emissions cap, carbon price, and subsidies.[2] Emissions by the electric sector are addressed by Renewable Energy targets at multiple scales, Australian Renewable Energy Agency (ARENA), Clean Energy Finance Corporation (CEFC), carbon capture and storage flagships, and feed-in tariffs on solar panels. Emissions by the industrial sector are addressed by the Energy Efficiency Opportunities (EEO) program. Emissions by the building sector are addressed by building codes, minimum energy performance standards, Commercial Building Disclosure program, state energy-saving obligations, and the National Energy Saving Initiative. Emissions by the transportation sector are addressed by reduced fuel tax credits and vehicle emissions performance standards. Emissions by the agricultural sector are addressed by the Carbon Farming Initiative and state land-clearing laws. Emissions by the land use sector are addressed by the Clean Energy Future Package, which consists of the Carbon Farming Futures program, Diversity Fund, Regional Natural Resources Management Planning for Climate Change Fund, Indigenous Carbon Farming Fund, Carbon Pollution Reduction Scheme (CPRS), and Carbon Farming Skills program. State energy saving schemes vary by state, with the Energy Saving Scheme (ESS) in North South Wales, Residential Energy Efficiency Scheme (REES) in South Australia, Energy Saver Incentive Scheme (ESI) in Victoria, and Energy Efficiency Improvement Scheme (EEIS) in Australian Capital Territory.
In June 2007, former Australian Prime Minister, John Howard, announced that Australia would adopt a Carbon Trading Scheme by 2012. The scheme was expected to be the same as the counterpart in United States and European Union using carbon credits, where businesses must purchase a license in order to generate pollution.
The scheme received broad criticism from both the ALP and Greens. The ALP believed that the scheme was too weak as well as a bad political move by the government. The lack of clear target by the government for this scheme before the 2007 federal election produced a high degree of skepticism on the willingness of the government on mitigation of global warming in Australia.
In March 2008, the newly elected Labor government of Prime Minister Kevin Rudd announced that the Carbon Pollution Reduction Scheme (a cap-and-trade emissions trading system) would be introduced in 2010, however this scheme was initially delayed by a year to mid-2011, and subsequently delayed further until 2013.[8]
In April 2010, Kevin Rudd announced the delay the CPRS until after the commitment period of the Kyoto Protocol, which ends in 2012. Reasons given were the lack of bipartisan support for the CPRS and slow international progress on climate action for the delay.
The Federal Opposition strongly criticized the delay[9] as did community and grassroots action groups such as GetUp.[10]
Another method of mitigation of global warming considered by the Australian Government is a carbon tax. This method would involve imposing an additional tax on the use of fossil fuels to generate energy. Compared to the CPRS and CTS/ETS, a carbon tax would set the cost for all carbon emissions, while the cap itself would be left unattended, allowing free market movements.
This tax would primarily be aimed to reduce the use of fossil fuels for energy generation, and also look to increase efficient energy use and increase demand for alternative energies.[11]
A carbon tax was introduced by the government of Julia Gillard on 1 July 2012. It requires businesses emitting over 25,000 tonnes of carbon dioxide equivalent emissions annually to purchase emissions permits, which initially cost A$23 for one tonne of CO2 equivalent. The tax was repealed by the Australian senate on 17 July 2014. The reason given for the repeal by Australia's 2014 prime minister Tony Abbot was that the tax cost jobs and increased energy prices.[12] Opponents to the repeal say that there has been an increase in Australian pollution since the tax's repeal.[13] Since the repeal there has been several calls to re-implement the tax from multiple public figures, including Woodside Petroleum CEO Peter Coleman.[14]
Coal is the most polluting of all fossil fuels, and the single greatest threat to the climate.[15] Every stage of coal use brings substantial environmental damage.[16] Phasing out dirty, unsustainable energy is one of the most important elements to climate change mitigation.[17] Today coal supplies almost one quarter of the world's energy. Brown coal is by far the most polluting, and is currently used in Victoria. In order to have significant effects on greenhouse gas emissions, there needs to be a replacement of coal energy with alternatives within Victoria.
Reduction in the mining, use and export of coal is favored by environmental groups such as Greenpeace. The Government prefers to support attempts to develop so-called "clean coal" pollution mitigation, and, in early 2009, had support from then opposition leader Malcolm Turnbull for this.[18]
According to Dr Mark Diesendorf, a senior lecturer at the Institute of Environmental Studies at the University of New South Wales, Australia, and a former principal research scientist with the Australian Commonwealth Scientific and Industrial Research Organisation (CSIRO), the continent produced about 200 million tons (Mt) of carbon dioxide equivalent in 2004. Almost all of the coal emissions were emitted by coal fired power stations. On top of this coal is responsible for 42.1% of Australia's greenhouse gas emissions, not counting export coal, based on 2004 GHG inventory.
Two forms of coal are mined in Australia, depending on the region: high quality black coal and lower quality brown coal. Black coal is mainly found in Queensland and New South Wales, and is used for both domestic power generation and for export overseas. It is normally mined underground before being transported to power stations, or export shipping terminals. Brown coal is mainly found in Victoria and South Australia, and is of lower quality due a higher ash and water content. Today there are three open cut brown coal mines in Victoria used for baseload power generation.
The Rudd-Gillard Government stated support for research into carbon capture and storage CCS as a possible solution to rising greenhouse gas emissions.[19] CCS is an integrated process, made up of three distinct parts: carbon capture, transport, and storage (including measurement, monitoring and verification).[15] Capture technology aims to produce a concentrated stream of CO2 that can be compressed, transported, and stored. Transport of captured CO2 to storage locations is most likely to be via pipeline. Storage of the captured carbon is the final part of the process. The vast majority of CO2 storage is expected to occur in geological sites on land, or below the seabed. Disposing of waste CO2 in the ocean has also been proposed, but this method has been largely discounted due to the significant impacts CO2 would have on the ocean ecosystem and legal constraints that effectively prohibit it.
However, according to the Greenpeace False Hope Report, CCS cannot deliver in time to avoid a dangerous increase in world temperatures. The earliest timeframe for deployment of CCS is not expected before 2030, and global emissions need to start falling well before that.
The Report also states that CCS wastes energy, and uses between 10-40% of the energy produced by a power station.[20] It also asserts that CCS is expensive, potentially doubling plant costs, and is very risky, as permanent storage cannot be guaranteed.
Australia has approximately 40% of the world's uranium deposits, and is the world's third largest producer of uranium.[21] Life-cycle greenhouse-gas emissions from nuclear power are low.
The only nuclear reactor in Australia is currently located at Lucas Heights. The main argument against building more is that the cost of electricity from new nuclear is more expensive than new solar power.[22] Other perceived problems include that enriched uranium can also be used as a nuclear weapon, prompting security issues such as nuclear proliferation. Also nuclear waste requires extensive waste management because it can remain radioactive for centuries.
Renewable energy technologies currently contribute about 6.2% of Australia 's total energy supply and 21.3% of Australia's electricity supply, with hydro-electricity the largest single contributor and wind power a close second.[23] At the end of 2018, Australia had 17,002 Gigawatt Hours (GWh) of installed hydro power capacity, 16,171 GWh of installed wind power and 11,694 GWh of installed solar power.[24][clarification needed] Initiatives are also being taken with ethanol fuel and geothermal energy exploration.[25]
Moving towards long-term mitigation policies is a requirement of government, and the Australian energy sectors remains a central area in national emissions. The International Energy Agency (IEA) reviewed the Australian energy sectors policies in 2018,[26] the findings identified needed improvements to the countries emissions reduction targets, and further the energy sectors resilience. The IEA identified needed improvements in government leadership by establishing a well-defined long-term integrated energy policy and climate toolkit for policy development and deployment.
The Australian Government has announced a mandatory renewable energy target (MRET) to ensure that renewable energy obtains a 20% share of electricity supply in Australia by 2020. To ensure this, the government has committed that the MRET will increase from 9,500 gigawatt-hours to 45,000 gigawatt-hours by 2020. After 2020 the proposed ETS and improved efficiencies from innovation and in manufacture are expected to allow the MRET to be phased out by 2030.[27]
Following the introduction of government Mandatory Renewable Energy Targets,[28][29] more opportunities have opened up for renewable energies such as wind power, photovoltaics, and solar thermal technologies. The deployment of these technologies provides opportunities for mitigating greenhouse gases.
Wind farms are highly compatible with agricultural and pastoral land use. While they span approximately 25 ha per MW of installed capacity, only about 1-3% of that land is actually taken up with their towers, access roads and other equipment.[30] Wind turbines are also extremely efficient. Large wind turbines convert about 45% of the wind passing through the area swept out by the blades into electricity; by comparison, modern coal-fired power stations convert to electricity only 35% of the energy stored in coal.[16] According to some experts, wind energy, at appropriate sites, is the most economical of all renewable energy sources other than large-scale hydro-electricity.
Bioenergy is energy produced from biomass. Biomass is material produced by photosynthesis, or is an organic by-product from a waste stream. Thus it can be seen as stored solar energy.[16] In terms of reducing greenhouse gas emissions, biomass offers four different types of contribution:
Sustainable energy expert Mark Diesendorf suggests that bioenergy could produce 39% of Australia's electricity generation.[16]
Solar heat and electricity together have the potential for supplying almost all of Australia's stationary energy.[16] With suitable government policies, particularly at the state and local levels, solar hot water could cost-effectively provide the vast majority of hot water systems in Australia, and make considerable reductions in residential electricity consumption.[16] Solar electricity's potential scale of application is huge and its prospects for further substantial cost reductions are excellent.[31]
The most important energy saving options include improved thermal insulation and building design, super efficient electrical machines and drives, and a reduction in energy consumption by vehicles used for goods and passenger traffic. Industrialized countries such as Australia, which currently use energy in the least efficient way, can reduce their consumption drastically without the loss of either housing comfort or amenity.[32] Increased energy efficiency of buildings had the support of the former leader of the federal opposition, Malcolm Turnbull.[33]
Biochar has been promoted as a technique for mitigation of global warming. The former leader of the federal opposition, Malcolm Turnbull brought biochar into the political debate by announcing that burying agricultural waste was one of three under-invested areas that his mitigation strategy was committed to opening up.[33]
Publications and interest groups which track the fledgling Australian industry are divided over the suitability of biochar to the economy. Brian Toohey of The Australian Financial Review has said it is yet to be proven commercially viable.[34] Friends of the Earth Australia, one of the larger environmental lobby groups, is fundamentally opposed to biochar, calling it "part of a series of false solutions to climate change" which will be "based on large-scale industrial plantations and will lead to the acquisition of large tracts of land, furthering the erosion of indigenous peoples' and community rights while not adequately addressing the climate crisis".[35]
Green Left Weekly has published several editorials supporting the development of a large-scale biochar industry.[36]
Reforestation programs have adaptation and mitigation strategy overlap,[37] and in 2016, the "20 million Trees Programme" was announced as a national strategy.[38] The plan aims to further native resilience against climatic changes by creating a self-sustaining tree-based ecosystem by planting 20 million native trees across Australian by 2020. The Programme falls under the authority of the Australian Government's National Landcare Programme. Increasing the coverage of flora range has the potential and capability to increase the habitability potential of areas threatened by climatic change and improve ecological communities that may be threatened or endangered.[39]
The Commonwealth government announced a plan in 2019 which would invest in Australia's forestry industry by planting 1 billion trees in nine forestry hubs throughout Australia by 2030.[40] Land management and biodiversity programs have emissions reduction benefits to both agricultural and environmental.[41] Advantages stem from the lands ability to adapt to climatic changes by helping to fight soil erosion and stabilize soil as well as providing shelter to native and agricultural animals.[42] AUD 1 billion will be invested the National Landcare program between 2018–19 and 2022-23.[43]
Greenpeace calls for a complete energy revolution. There are some fundamental aspects to this revolution, aimed as changing the way that energy is produced, distributed and consumed.[17] The five principles of this revolution are:
Other goals of the energy revolution are:
The energy revolution report also looks at policy suggestions for the Australian Government in regards to climate change. Policy suggestions of the report include:
Climate Code Red states that the key strategies for cutting greenhouse gas emissions to zero are resource efficiency backed up by the substitution of renewable energy for fossil fuel sources.[44] The report sites ultra-efficient technologies and synergies, and wind power as ways in which to tackle the climate change problem within Australia.
Climate Code Red also has an outline for a rapid transition to a safe-climate economy. This plan includes:
Further information: High-speed rail in Australia
The Australian Climate Change Authority made recommendations to the Commonwealth government in 2016 to develop a toolkit of policies to guide the country into the future,[10] the focal point for the 'toolkit' is Australia's Paris Agreement obligations.[45] In 2017, the Commonwealth government commissioned an effectiveness' assessment of emissions reductions policies to meet its Paris Agreement obligations by 2030.[46] The results of the evaluation were to develop both adaptation and mitigation measure which would cover all sectors of the economy, under the Paris Agreement these measure fall under "ratchet mechanism".[47] To meet the 2030 Paris Agreements 2 °C limit of global median temperature rise a five-year review and adjustment cycle will commence beginning in 2023.[48]
There are a number of ways to achieve the goals outlined above. This includes implementing clean, renewable solutions and decentralizing energy systems.[17] Existing technologies are available to use energy effectively and ecologically, including the use of solar, wind, and other renewable technologies, which have experienced double digit market growth globally in the last decade.[17]
A large section of the scientific community believe that one of the real solutions to avoiding dangerous climate change lies in renewable energy and energy efficiency that can start protecting the climate today. Technically accessible renewable energy sources such as wind, wave, and solar, are capable of providing six times more energy than the world currently consumes.[15] As coal is one of the highest emitters of greenhouse gases, closing coal power stations is one of the most powerful tools for carbon emission reduction.
The city of Melbourne is working with the wider Australian government to make Melbourne carbon neutral by the year 2050. The name of the plan is Melbourne Together for 1.5°C. The plan includes ways for Melbourne to reduce the impact of waste, and models for how to reduce transport and building emissions to zero. This is a continuation off of a plan created in 2003 to have Melbourne carbon neutral by 2020, but this did not succeed.
The content is sourced from: https://handwiki.org/wiki/Earth:Mitigation_of_global_warming_in_Australia