Through mass extinction recovery to understand modern ecosystem resilience
mass extinction
ecosystem resilience
paleobiology
climate adaptation
biodiversity hotspots
Using AI-driven wildfire prediction models with satellite and IoT data fusion
AI wildfire prediction
satellite data fusion
IoT sensors
risk assessment
early warning systems
Long-term nuclear waste storage solutions through million-year geological isolation techniques
nuclear waste disposal
geological isolation
long-term storage
radioactive materials
deep boreholes
Decoding climate history across paleomagnetic reversals using nanoscale iron oxide analysis
paleomagnetism
climate proxies
geomagnetic reversals
iron oxides
nanogeoscience
Spanning microbiome ecosystems to engineer climate-resilient crops
microbiome engineering
climate-resilient crops
soil microbes
agricultural biotechnology
drought tolerance
Aligning synthetic biology with 2035 SDG targets for ocean plastic degradation
synthetic biology
SDGs
plastic degradation
marine pollution
bioengineering
During impact winter scenarios: fungal networks as emergency food production systems
impact winter
fungal networks
emergency food
mycelium agriculture
climate catastrophe
CRISPR-enhanced crop genomes for impact winter resilience in nuclear winter scenarios
CRISPR crops
nuclear winter agriculture
climate resilience farming
bioengineered plants
food security
Via phytoplankton cloud seeding, can marine biogenic aerosols regulate ocean heat uptake?
phytoplankton
cloud seeding
marine aerosols
ocean heat uptake
biogenic particles
Using AI-driven wildfire prediction models with satellite and IoT sensor fusion
wildfire prediction
AI models
satellite imagery
IoT sensors
environmental monitoring
Using blockchain for transparent carbon credit verification in supply chains
blockchain
carbon credits
supply chain
transparency
climate tech
Uniting paleoclimatology with AI prediction for extreme weather forecasting
paleoclimatology
AI prediction
extreme weather forecasting
climate models
historical data