澳洲论文:可再生能源的使用
我坚信,系统思维方法对于制定解决方案应对可持续性挑战至关重要,例如在澳大利亚增加可再生能源的使用。因此,我完全同意这一说法。系统思维的方法提供了对未来的清晰看法,而不考虑不确定的变化。这为管理生态和社会现象之间复杂的因果关系提供了更好的可能性。它填补了预测当前个人和合作行为结果的长期能力的空白。在这种方法中,偶然循环是学习的重要工具。该工具有助于识别各种变量如何作为循环继续保持平衡或加强彼此(Withycombe and Redman, 2011)。一个重要的例子是,如果技术的效率提高了,资源的使用就会减少。不受可用资源影响的商业活动有所增长,为提高技术效率而进行的投资也有所增加。因此,这些变量可以放在强化循环中。此外,由于商业活动的增加而增加资源的总利用,最终可以克服从效率水平上得到的减少。
澳洲论文:可再生能源的使用
通过可再生能源实现可持续性是当今时代的一个关键问题。系统思维方法有助于从系统可持续性的角度理解可再生能源中各种因素及其相互关系。系统思维能够获得对整个系统的整体感知,同时更好地理解整体行为。在当前的情景下,经济增长对自然资源有着巨大的依赖(Wolsink and Burer, 2007)。目前的生态环境状况并没有减缓经济的增长。此外,技术的效率有助于增加资源的使用,这对企业至关重要。然而,通过系统思维的应用,一个人可以理解一个特定系统的整个行为。这种方法为解决方案的实施提供了范围、原因和方向,从而导致系统的变化产生连锁反应。最后,可以充分同意系统思维在以适当的解决办法处理可持续性挑战方面的重要性。
澳洲论文:可再生能源的使用
I strongly believe that systems thinking approach is crucial for developing solutions to deal with sustainability challenges such as increasing the use of renewable energy sources in Australia. Hence, I agree this statement to the full extent. The approach of systems thinking provides a clear view about the future and irrespective of uncertain changes. This provides a better potential for managing the complex relationships of cause and effect across ecological and social phenomena. It fills the gap of chronic abilities in foreseeing the results of current individual and collaborative behaviour. Casual loops are an important tool of learning in this approach. This tool helps in identifying how various variables can continue to balance or reinforce one another as a loop (Withycombe and Redman, 2011). As a significant example, if there is an increase in efficiency of technology, there will be a decrease in use of resources. Unaffected by the availability of resources, there is growth of business activities and investments are made to enhance the efficiency of technology. Hence, these variables can be placed in the loop of reinforcement. In addition, increasing the overall use of resource because of increased business activities can end up overcoming the decrease obtained from the level of efficiency.
澳洲论文:可再生能源的使用
Sustainability through renewable sources of energy is a key concern in the current era. The approach of systems thinking helps in understanding various factors and their interrelation with one another in renewable energy sources at the level of system sustainability. Systems thinking enables to obtain a holistic perception about the entire system while obtaining a better understanding about the overall behaviour. In the current scenario, there is huge dependence of economic growth on natural resources (Wolsink and Bürer, 2007). The present condition of the ecological environment is not slowing down the growth of economy. In addition, efficiency of technology can contribute in increasing the use of resources and is crucial for businesses. However, by the application of systems thinking, one can understand the entire behaviour of a specific system. This approach provides scope, reason and direction for the implementation of solutions such that systemic change is induced as a ripple effect. In conclusion, the significance of systems thinking for dealing with sustainability challenges with appropriate solutions can be agreed to the full extent.
