Sustainable Living And Innovation Solar Power †MyAssignmenthelp.com

Question: Discuss about the Sustainable Living And Innovation. Answer: Introduction The report will discuss in detail about the different aspect of sustainable living and associated innovations to make sure about sustainability. The crucial aspects discussed in the report will be the agriculture based sustainability and solar power sustainability. Literature scope and objective The report will discuss in detail about the promotion of sustainable development that can meet the requirements of the present set of generation without any adjustment with lives of coming generation (Brock and Coulibaly, 2016). Agriculture sustainability and solar power activities are done in support to motivate the diversity at the business for the present and newer kind of investment alternatives. It is important to also inspire the society to live in a more sustainable manner. Literature review Sustainable agriculture and innovation The main aim of the sustainable agriculture is to meet the food of the society and overall needs of clothing in the current time without completely compromising it with the ability to come generation to meet their needs (Liu, 2014). There are a number of practitioners of sustainable agriculture to seek to combine the three main goals of the work which leads to a healthy surrounding, profitability on an economic level and social as well as economic equity. Every individual consists of the food system which includes a grower, processors, distributors, customers as well as waste managers (Specht et al., 2014). These people play a crucial role in making sure that there is sustainable agriculture on the place. There are so many functions that are used commonly by the people who are working in the environment along with sustainable food systems. The farmers sometimes utilize methods to encourage the health of soil, decreasing the usage of water and lower level of pollution. Retailers, as w ell as consumers, are more concerned with overall sustainability that can look for a more value-based food that is grown utilizing many ways which specifically promote the farmer's wellbeing and that are also environmental friendly. It also helps in strengthening the economy of the country. A number of people who are working on the concept of suitable agriculture many times cross some set lines with the work that get combined with biology, economics, development of community and much more (Henderson et al., 2016). At the same time, sustainable agriculture is more than a combination of many sets of practices. It is also based on negotiation process consisting of the push as well as pull that exist between some competitions related interests of farmers or with people in the community since everyone work to resolve the issue about growing the food. Potential Costs of Modern Agricultural Techniques Depletion of topsoil Contamination of Groundwater Degradation Rural Communities Lowered Conditions For Farm workers Increased Production Costs Agriculture related to sustainability consists of three main goals which are health of the environment, profitability at economic level as well as economic and social based equity. There are many options of different polices as well as usual functions that have shared the common set of values along with contribution in it. Regardless of the diversity of people as well as perspectives, following themes commonly used through the help of many definitions based on sustainable agriculture. The concept of sustainability rests on the overall principles that it is important for meeting the needs of current time without any adjustment of the ability of future generations to meet the present needs. This is why concept of natural as well as human resources are very crucial. Human resource is based on considering of many social accountabilities like working and living time of labor, the need for rural communities and health of consumers in the present as well as in the future (Guimares et al., 2 017). A system based perspective is important for understanding the concept of suitability where the systems are envisioned in the present broadest manner and also form the individual farm to the locally based ecosystem as well as communities can get affected by the diverse farming system both globally as well as domestically. The attention is on the system that permits a larger and a more detailed opinion of the many consequences of framing work on both human communities and the culture. A systematic approach also provides the tool to see the connection that exists between farming and another kind of features related to our environment (Ceccarelli, 2014). In the end, it is very important to understand the process of reaching the objective of sustainable based agriculture and it is the accountability all the people working in the systems. It includes farmers, policymakers, retailers, labors, and customers. Every section has a crucial part to play, and its present contribution is based on strengthening the sustainable agriculture. Solar energy and sustainability The concept of renewable energy is not something new however it proceeds to emerge as an option to the consumption of fossil fuel and other sources of energy. Products in the industry are also developed on a scale which is unprecedented along with many systems that are also present for usage. At the same time, there is none that can be applied on the sustainability of many developing countries like solar power (Coxhead and Buenavista, 2016). The technologies related to solar energy is very promising with increased amount of output efficiency and the capacity that can be used in so many types of locations. The internal design based qualities of solar design can also be able to afford some utility because of reasons discussed below: - Developing countries are based in many remote regions with optimal use of sun light and nothing else. Many kinds of resources for fuel as well as the energy that are present in many developing countries that can only be utilized by exploitation of the present ecosystem which lead to a decline in society (Faunce et al., 2013). Rise in the international independence of many types of fossil fuels that rapidly need solar technologies, and it will increase the overall competition and based on lower price. The solar system is reasonable to install and can be applied to villages as well as homes, as a different household of many industrialized countries is using this technique more frequently (Faunce et al., 2013). Within the parameter of solar based technologies, many passive kinds of solar designs are the ultimate source of renewable energy for the building. There are a number of projects that are using the technology of solar power that already executed in many developing countries and also serves as many encouraging based on results for much more to come (Wood et al., 2014). Solar power is considered as the best option for sustainable development along with renewable energy in a number of developing countries. Conclusion This is the time to focus more on lighter as well as stronger materials with low impact on the environment. The main aim is to optimize the material every time, companies' needs raw material in any form discussed above (Troldborg et al., 2014). It is important to continue to connect with new researches, academics, and other companies to develop a new base for technologies being used in both the field. References Brock, K. and Coulibaly, N., 2016.Sustainable rural livelihoods in Mali. Institute of Development Studies. Devine-Wright, P. ed., 2014.Renewable Energy and the Public: from NIMBY to Participation. Routledge. Ceccarelli, S., 2014. GM crops, organic agriculture and breeding for sustainability.Sustainability,6(7), pp.4273-4286. Coxhead, I. and Buenavista, G., 2016.Seeking sustainability: Challenges of agricultural development and environmental management in a Philippine watershed. Los Baos, Laguna, Philippines: Philippine Council for Agriculture, Forestry and Natural Resources Research and Development, Dept. of Science and Technology. Faunce, T., Styring, S., Wasielewski, M.R., Brudvig, G.W., Rutherford, A.W., Messinger, J., Lee, A.F., Hill, C.L., Fontecave, M., MacFarlane, D.R. and Hankamer, B., 2013. Artificial photosynthesis as a frontier technology for energy sustainability.Energy Environmental Science,6(4), pp.1074-1076. Guimares, H., Fonseca, C., Gonzalez, C. and Pinto-Correia, T., 2017. Reflecting on Collaborative Research Into the Sustainability of Mediterranean Agriculture: A Case Study Using a Systematization of Experiences Approach.Journal of Research Practice,13(1), p.1. Henderson, K.A., Bauch, C.T. and Anand, M., 2016. Alternative stable states and the sustainability of forests, grasslands, and agriculture.Proceedings of the National Academy of Sciences, p.201604987. Liu, G., 2014. Development of a general sustainability indicator for renewable energy systems: a review.Renewable and Sustainable Energy Reviews,31, pp.611-621. Specht, K., Siebert, R., Hartmann, I., Freisinger, U.B., Sawicka, M., Werner, A., Thomaier, S., Henckel, D., Walk, H. and Dierich, A., 2014. Urban agriculture of the future: an overview of sustainability aspects of food production in and on buildings.Agriculture and human values,31(1), pp.33-51. Troldborg, M., Heslop, S. and Hough, R.L., 2014. Assessing the sustainability of renewable energy technologies using multi-criteria analysis: Suitability of approach for national-scale assessments and associated uncertainties.Renewable and Sustainable Energy Reviews,39, pp.1173-1184. Wood, K.N., O'Hayre, R. and Pylypenko, S., 2014. Recent progress on nitrogen/carbon structures designed for use in energy and sustainability applications.Energy Environmental Science,7(4), pp.1212-1249.