The site in Western Australia holds one of the country’s largest and oldest iron ore mines.

Texas A&M researchers are identifying the best methods for reducing the risk of wildfires.

Concentration of dinitrogen oxide – also referred to as nitrous oxide – in the atmosphere increases strongly and speeds up climate change. In addition to CO2 and methane, it is the third important greenhouse gas emitted due to anthropogenic activities.

Food waste is one of the most important issues of current food systems: Food and Agriculture Organization (FAO) has estimated that more than one third of food is either lost or wasted along the entire food supply chain causing significant economic, social and environmental impacts.

For the last decade, chinook salmon, commonly known in Alaska as “king salmon,” has been in decline, a trend that has stumped researchers and biologists across the state as to what is causing the salmon’s low returns.

With demand for lentils growing globally and climate change driving temperatures higher, a University of Saskatchewan (USask)-led international research team has developed a model for predicting which varieties of the pulse crop are most likely to thrive in new production environments

After a dry summer and despite a few recent rainy days, Connecticut is experiencing an increasingly dry autumn, with areas of the state ranging from abnormally dry to extreme drought conditions.

For smallholder farmers living in hot and arid regions, getting fresh crops to market and selling them at the best price is a balancing act.

For the second year in a row, fires have been widespread and persistent in the South American country.

A new study coordinated by CU Boulder makes clear the extraordinary speed and scale of increases in energy use, economic productivity and global population that have pushed the Earth towards a new geological epoch, known as the Anthropocene. Distinct physical, chemical and biological changes to Earth’s rock layers began around the year 1950, the research found.

Led by Jaia Syvitski, CU Boulder professor emerita and former director of the Institute of Alpine Arctic Research (INSTAAR), the paper, published today in Nature Communications Earth and Environment, documents the natural drivers of environmental change throughout the past 11,700 years—known as the Holocene Epoch—and the dramatic human-caused shifts since 1950. Such planetary-wide changes have altered oceans, rivers, lakes, coastlines, vegetation, soils, chemistry and climate.

“This is the first time that scientists have documented humanity’s geological footprint on such a comprehensive scale in a single publication” said Syvitski, former executive director of the Community Surface Dynamics Modeling System, a diverse community of international experts from who study the interactions between the Earth’s surface, water and atmosphere.

Read more at: University of Colorado at Boulder