Elsevier, Global Environmental Change, Volume 67, March 2021
Our carbon-intensive economy has led to an average temperature rise of 1 °C since pre-industrial times.
Anthropogenic activity is a major driver of seabird injury and mortality in the 21st century.
With the growing global environmental awareness, the development of renewable and green materials has gained increased worldwide interest.
A shift to a more healthy and sustainable diet (as recommended by the EAT Lancet Commission report) is currently hampered by persistent choices for meat, which are based on stable preferences and posi

The climate emergency and population growth are challenging water security and sustainable urban design in cities worldwide.

Electric vehicles (EVs) are widely regarded as the key to finally making private mobility clean, yet virtually no research is being conducted on their potential contribution to the expansion of imp

Climate change can have detrimental effects on child health and wellbeing.

Material depletion over reliance of linear economies and environmental pollution may be resolved by applying the principles and practices of anthropogenic circularity science. Here we systematically review the emergence of anthropogenic circularity science in the interdisciplinary development of green chemistry, supply chain, and industrial ecology at different scales.
This article supports SDGs 7, 9 and 11 by utilizing solar photovoltaic, wind energy, solar thermal energy, and battery energy storage, and the special emphasis is placed on the schedulable value of concentrated solar power generation to provide more economical and environmentally friendly energy supply, while integrating multiple renewable energy technologies through artificial intelligence technology to shape the future of cities.

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