Conservation biologists are taking a holistic approach to acoustic monitoring for evaluating the effectiveness of restoration efforts.

Advancing a more collective understanding of coastal systems dynamics and evolution is a formidable scientific challenge. PNNL is meeting it head on to inform decisions for the future.

Roads built through acidic wetlands may make greenhouse gas emissions from the wetlands spike by damming natural water flow, according to a new study.

By monitoring crops through machine learning and satellite data, Stanford scientists have found farms that till the soil less can increase yields of corn and soybeans and improve the health of the soil – a win-win for meeting growing food needs worldwide.

The fourth largest man-made reservoir in North America extends from Pierre, South Dakota, to Bismarck, North Dakota.

Fjords and funnel-shaped bays and inlets are often the scene of dramatic tidal changes and sediment loads.

Plants that can “bounce back” after disturbances like ploughing, flooding or drought are the most likely to be “invasive” if they’re moved to new parts of the world, scientists say.

Researchers aim to use satellite technology to test new ways of merging different datasets to estimate and ultimately monitor ocean acidification.

The Kolyma River in eastern Siberia was sampled for a global study of black carbon in rivers and oceans by a team of researchers.

Bats face many threats — from habitat loss and climate change to emerging diseases, such as white-nose syndrome.