Optimizing phytoplankton cloud seeding for large-scale carbon capture via AI modeling
phytoplankton
cloud seeding
carbon capture
AI modeling
climate engineering
Enhancing carbon capture efficiency via phytoplankton cloud seeding in oceanic dead zones
phytoplankton
cloud seeding
carbon capture
marine biogeochemistry
genetic engineering
Optimizing carbon capture efficiency during El Niño oscillations using marine algae blooms
carbon capture
marine algae
El Niño
climate mitigation
phytoplankton
Aligning carbon capture technologies with 2035 SDG targets for industrial decarbonization
carbon capture
SDG targets
industrial decarbonization
sustainability
climate mitigation
Aligning biochar soil enhancement with 2035 SDG targets for carbon sequestration
biochar
soil enhancement
carbon sequestration
SDGs
sustainable agriculture
Ocean iron fertilization impacts on diatom blooms monitored by autonomous glider fleets
marine biogeochemistry
iron fertilization
autonomous vehicles
phytoplankton blooms
carbon sequestration
Combining ancient and modern methods for low-carbon concrete using Roman cement techniques
Roman concrete
sustainable construction
carbon reduction
material science
ancient techniques
Through biochar soil enhancement to mitigate drought stress in crops
biochar
soil enhancement
drought mitigation
sustainable agriculture
water retention
Optimizing deep-ocean carbon sequestration via microbial electrosynthesis
microbial electrosynthesis
carbon sequestration
deep-ocean
electroactive bacteria
abyssal zones
Deep-ocean carbon sequestration using viral vector-engineered microbial communities
carbon sequestration
viral vectors
synthetic biology
ocean microbes
climate mitigation
Optimizing carbon capture efficiency through photoredox chemistry in industrial emissions
photoredox
carbon capture
industrial emissions
catalysis
sustainability
Enhancing carbon capture through phytoplankton cloud seeding with nanobubble delivery
marine geoengineering
nanobubble technology
algal blooms
carbon sequestration
cloud nucleation