Transformative Change or Bust

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            Climate change is the largest challenge humanity has ever faced. The problem and solution in its essence are simple: humans are emitting too greenhouse gasses and need to stop these emissions. However, in reality it is exponentially more complicated. The ability to emit greenhouse gasses in unlimited qualities has been built into the fabric of modern society and the global economy, yet, these emissions also threaten to destroy both. The notion of ‘dangerous’ climate change can mean something completely different for each person trying to quantify it; it changes based on region, capacity to adapt, perceptions on the science and so on. For the purposes of this essay dangerous climate change is already happening, at a one-degree increase in global temperatures, and unacceptably dangerous climate change is anything beyond this. Incremental changes in policy and reforms are inherently unable to avoid dangerous circumstances because it is already happening; there is no time to wait for gradual shifts and transitions to a clean energy economy and society. Transformative and radical changes in the way and how much humans consume energy are necessary just to avoid even more dangerousclimate change.

Currently there has already been an observed increase of almost one degree in world temperatures, with roughly 400 parts per million of carbon dioxide in the atmosphere. There has been relative international consensus, with an agreement to review decision later, that a temperature increase of two degrees Celsius is an acceptable amount of climate change to avoid “dangerous” effects. Thomas Lovejoy, a highly respected biologist, has said that based on what he has observed already in terms of ocean acidification, changes in annual cycles, temperature, precipitation and these effects of biology and biological diversity, the idea of two degrees is to much. He noted that anywhere one looks, “the finger prints of climate change” is visible. Just looking at the Burning Embers Graph, created by the IPCC, risk is created with any amount of temperature change. However, if we quantify dangerous change as beginning with the “high risk” category, that begins after one degree and the “very high” category begins right after two degrees. Climate change has already had measurable consequences such water availability, extreme weather events (such as hurricanes and typhoons) that have impacted human health and safety, and an increase in severity and number of wildfires as well as heat waves.[i] While these impacts have not affected each region and every community equally, clearly the world is already at a stage of dangerous climate change for many.

IPCC AR5 projected global average surface temperature changes in a high emissions scenario (RCP8.5; red) and low emissions scenario (RCP2.6; blue).
IPCC AR5 projected global average surface temperature changes in a high emissions scenario (RCP8.5; red) and low emissions scenario (RCP2.6; blue).

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With the realization that the world is already experiencing ‘dangerous’ climate change, the most aggressively climate-resilient pathway must be chosen. A report by the Worldwatch Institute noted that a transformational, “transition is essential if we are to achieve emissions reductions on the scale that the IPCC says is required by 2050 in order to limit global warming to 2-degrees Celsius.”[ii] The report later specifies that a least eighty-percent below 2000 levels, is required. This signifies a truly revolutionary change in energy consumption for such a short time scale, particularly considering this is based off a goal of two degrees, not just one.

Yet, that does not mean it is not possible. According to the same report by the Worldwatch Institute necessary transformational change is viable in the coming two decades (to achieve the 2050 goal) if a combination of energy efficiency and renewable energy is used. In the “Climate Change 2014: Impacts, Adaptation, and Vulnerability: Summary for Policymakers” the Intergovernmental Panel on Climate Change (IPCC) said with high confidence that, “Transformations in economic, social, technological, and political decisions and actions can enable climate-resilient pathways.”[iii] Transformational changes require mitigation actions on these four levels immediately, through a rapid growth in clean energy implementation and use, a drastically more energy efficient society and economy and the strong political force to promote and implement these changes.

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An effective strategy of mitigation a few decades ago, before climate change was acutely visible, would have involved incremental changes and gradual policy reform to slowly create a low-carbon economy. However, humanity is no longer in this position. The future security of the world depends on avoiding any and all amounts of dangerous climate change. The ability to do this will directly rely on the collective ability to create rapid transformative change that drastically reduces current greenhouse gas emissions.

 

 

Work Cited:

Sawin, Janet, and William Moomaw. “Renewable Revolution: Low-Carbon Energy by             2030.” Worldwatch Report (2009): 5-39. Print.

 

“Summary for Policymakers.” Climate Change 2014: Impacts, Adaptation, and             Vulnerability (2014): 3-30. Print.

 

[i] “Summary for Policymakers.” Climate Change 2014: Impacts, Adaptation, and             Vulnerability (2014): 3-30. Print.

[ii] Sawin watch 24

[iii] “Summary for Policymakers” 29

Without Renewables, Climate Change Will Stunt Your Growth

 

Image From http://thebreakthrough.org/archive/in_love_with_the_sun
Image From http://thebreakthrough.org/archive/in_love_with_the_sun
Not In My Backyard by Joe Heller
Not In My Backyard by Joe Heller

Climate change does pose significant threats to prospects for sustainable development as it threatens the ability to sustain the development with causing territories being submerged by water, reducing food supplies, and increasing health threats to populations. Luckily, there are some methods of development which simultaneously promote climate change mitigation and development. If the world continued to develop “business-as-usual” than there is no way that that type of development could be sustainable. The massive amounts of fossil fuels necessary for continued development on our current trajectory would push the Earth beyond the levels of climate change “dangerous” to human civilization. Non-fossil fuel intensive development methods, if employed globally, could mitigate further climate change, thus protecting development efforts from more dangerous climate change. The fact that non-fossil fuel methods reduce the danger of climate change makes it better able to sustain continued development through climate change. One alternate development strategy looking more and more hopeful is that of using renewable energies.

A strong paper written in support of low-carbon development is Sawin and Moomaw’s Worldwatch report “Renewable Revolution: Low-Carbon Energy by 2030”. Sawin and Moomaw make the case that combining renewable energy utilization with better energy efficiency efforts could lead to a low-carbon energy sector by 2030 without hindering development in any way, and perhaps even helping it. Currently, most of the world’s power plants lose about 2/3 of the energy they produce as heat (Sawin and Moomaw 10). There is no way that losing over half of the fossil fuel energy going into the power plants is necessary for development. With efficiency efforts capturing the excess heat and steam and updating older power plants to be more efficient, power plants are better able to serve development needs with less carbon emissions. Furthermore, combined with the use of renewable energies instead of fossil fuels, the new global energy system could in fact lead to low-carbon energy by 2030 (Sawin and Moomaw 6-7). Sawin and Moomaw claim that all of the technology required to employ renewable energies on a global scale are ready; only policy is holding back implementation (Sawin and Moomaw 23). This means that there is the capacity to energize the world on mostly renewable energy and not fossil fuels, and developing countries’ development will not be hindered by such efforts.

In fact Sawin and Moomaw give reasons that switching to renewables could in fact improve developing countries’ efforts compared to the business-as-usual approach. For one, renewable energy sources are especially rich in developing areas, offering a possibility for exporting energy and enjoying job opportunities which accompany the birth of a new industry (Sawin and Moomaw 16). Also, renewable energy can offer options for development where current fossil-fuel methods are failing. For example, in Africa where current energy infrastructure is failing, especially in light of the booming population there, fossil fuels are inadequate to serve Africans’ energy needs in order to develop. Renewable sources, and especially wind, however offer and option for more sustainable energy that can support the continent’s development (Sawin and Moomaw 39). Developing countries will still need aid in building new infrastructure, so luckily the motions are already in place to get this through UNFCCC-created funds for climate change initiatives.

As Sawin and Moomaw argue, a low-carbon energy sector offers a road to development which does not simultaneously threaten the sustainability of the very societies which are developing. The trick is not making in improving technology; this has already happened. Instead, policies such as fossil fuel subsidies need to be terminated while other programs supporting renewable energies be created. And as we are getting closer and closer to Sawin and Moomaw’s 2030 goal, time for policy change is running out. If nations want to maintain their hard-earned development, the necessity of moving away from fossil fuels cannot be ignored.

 

 

Work Cited

Sawin, Janet and William Moomaw. “Renewable revolution: low-carbon energy by 2030.” Worldwatch Institute, 2009. Web. 2 Nov. 2014.