The Amazon rainforest is often associated with jaguars, parrots, and towering trees. Yet the majority of animal life in this ...

Recycling all the human and livestock feces and urine on the planet would contribute substantially to meeting the nutrient supply for all crops worldwide, thereby reducing the need to mine fertilizers ...

Scientists exploring ways to use the ocean as a carbon sink are running into a problem that could limit the technology’s long-term effectiveness: the nutrients that marine life needs to pull carbon ...

Scientists show recycled human waste can unlock nutrients in Martian dust, offering a new path for farming on Mars.

Tiny pits, webbing patterns, and a dusting of nanoparticles are not what most people picture when they think about farming. Yet those small scars may end up mattering if you ever try to grow food on ...

Researchers have succeeded in establishing a method for producing recycled liquid fertilizer that contains high concentrations of phosphorus. Growing plants can be a joyous, yet frustrating process as ...

Nutrient recycling WalNUT project will present its findings on 5 February 2026 (09:00–17:30) at the Representation of the European Region Tyrol–South Tyrol–Trentino, Rue de Pascale 45–47, Brussels.

NASA and ACS research explore how recycling human and plant waste could create nutrient-rich soils for lunar and Martian greenhouses, supporting Artemis and future missions.

Soil is more than dirt—it’s a secret financial advisor hiding under your feet. A garden or farm may look fine from the surface, but unseen imbalances in nutrients, pH levels, or soil composition can ...