Elsevier,
Forensic Science International: Animals and Environments, Volume 3, December 2023
Illegal Wildlife Trade (IWT) is among the most lucrative illegal industries in the world and is a significant driver of biodiversity decline. This paper outline the basics of IWT and discuss its cascading consequences on environments, human lives and communities, national stability, and the economy.
Elsevier,
Utilities Policy, Volume 85, December 2023
Water-smart society must highlight societal well-being and co-development across sectors. Furthermore, the article emphasizes the need for a long-term perspective, conserving nature, and maximising ecosystem services, while anticipating change. Finally, the article discusses how a more grounded conceptualisation of the water-smart society can guide utilities and urban policy design.
Elsevier,
The Lancet Global Health, Volume 11, December 2023
This study supports SDG 3, 6, and 16 by providing a comprehensive quantitative analysis of the association between conflict and the incidence of cholera in Yemen, highlighting how conflict-related destruction has compounded water, sanitation, and hygiene issues in Yemen.
Elsevier,
Science Bulletin, Volume 68, 30 December 2023
Given that we are halfway to 2030, there is a greater need to accelerate our progress to SDGs. To the data gap, which is still a huge barrier for SDGs, Big Earth Data provide strong support to measure the status and trend of progress. Using Big Earth Data with global data acquisition and analysis capability, China can and should make more contributions to fill the data gap and give more data-driven suggestions for decision-makers for the world’s SDG efforts.
Elsevier,
Geoderma Regional, Volume 35, December 2023
A study published by Mukhopadhyay et al., 2023 investigates the long-term impact of subsurface drainage (SSD) on soil quality restoration and sugarcane productivity in waterlogged saline Vertisols in India. By using soil and water samples together with a farmer field survey, the authors showed that SSD significantly reduced soil salinity and improved various soil properties, leading to increased sugarcane yields by up to 585.5%. Farmers' perceptions indicated that SSD technology could substantially improve soil conditions and crop yields, and large-scale adoption of the technology will support the Sustainable Development Goals related to Land, No Poverty, and Zero Hunger in saline soils of India.