Indeed, it is hard to separate human activities and climate change and particularly in the present day, the concern of global warming. As such, the need for policies to address the situation is essential, and the role of engineers in global policymaking remains relevant as well. For instance, as the world experiences spontaneous economic growth, it comes along with increased industrial development which directly impacts on the environment, particularly through increased pollution. It eventually leads to global warming. The inclusion of engineers while doing industrial planning is essential as they can give advice on the directions to take regarding construction, designs, and future structures (Stern, 2016). In the same case, it is vital to note that the choices that people make about the application of engineering concepts are instrumental in balancing human activities and their impact on climate patterns. One crucial area that the role of engineers is critical is changes in energy production (Bolaji & Huan, 2013). In like manner, countries must involve them in matters to do with improving energy efficiency, especially in areas that are technical in nature (Wise et al., 2014). Far from giving directions/advisory roles, engineers should also take a central role in leading policy teams that seek to address climate change patterns. On the other hand, one way to respond to the impact of global warming is to have in place stable infrastructure. As such, engineers should be integral in helping mitigate and adapt to climate change (Kolbert, 2015). In connection, global warming as an issue should be a major consideration when global policymakers are planning, and engineers must help in making the right decisions about the forecast for future infrastructure as a way to overcome climate change impacts (Anisur et al., 2013). It will be a way to ensure that the foundations are resilient to the extremes of global warming; therefore securing the lives of future generations.
Bibliography
Anisur, M. R., Mahfuz, M. H., Kibria, M. A., Saidur, R., Metselaar, I. H. S. C., & Mahlia, T. M. I., 2013. Curbing global warming with phase change materials for energy storage. Renewable and Sustainable Energy Reviews , 18 , 23-30.
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Bolaji, B. O., & Huan, Z., 2013. Ozone depletion and global warming: Case for the use of natural refrigerant–a review. Renewable and Sustainable Energy Reviews , 18 , 49-54.
Kolbert, E., 2015. Field notes from a Known Catastrophe: Man, nature, and climate change . Bloomsbury Publishing USA.
Stern, N., 2016. Economics: Current climate models are grossly misleading. Nature , 530 (7591), 407-409.
Wise, R. M., Fazey, I., Smith, M. S., Park, S. E., Eakin, H. C., Van Garderen, E. A., & Campbell, B., 2014. Reconceptualising adaptation to climate change as part of pathways of change and response. Global Environmental Change , 28 , 325-336.
