The destruction of natural habitats is causing loss of biodiversity and ecosystem services.
The process industries have been facing ever increasing pressure in the monitoring and control of gaseous pollutants such as volatile organic compounds and hazardous air pollutants.
Elsevier, Current Research in Green and Sustainable Chemistry, Volume 3, June 2020
The successful conversion of lignocellulose into value-added products depends on overcoming the recalcitrance of its structure towards enzymatic digestion.
Elsevier, Current Research in Green and Sustainable Chemistry, Volume 3, June 2020
Bio-based aerogels with customizable porosities and functionalities constitute a significant potential for CO2 capture.
Nurse practitioners (NPs) have key roles in addressing health consequences of climate change across the lifespan for patients, families, communities, and populations.
Elsevier,

Innovative Food Science and Emerging Technologies, Volume 62, June 2020

Chitin is the structural material of crustaceans, insects, and fungi, and is the second most abundant biopolymer after cellulose on earth.

This chapters describes the hugely diverse but threatened desert environments, from their broad ecosystem structure through to the unique adaptations found among the species inhabiting these challenging habitats. Current changes and threats desert ecosystems face due to anthropogenic activities, including climate change, are discussed, together with potential solutions and conservation approaches.
Indigenous peoples globally have high exposure to environmental change and are often considered an “at-risk” population, although there is growing evidence of their resilience. In this Perspective, we examine the common factors affecting this resilience by illustrating how the interconnected roles of place, agency, institutions, collective action, Indigenous knowledge, and learning help Indigenous peoples to cope and adapt to environmental change.

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