"Biogeochemical reaction theories" was the prompt for this illustration generated by #midjourney
The prompt is a quote from the abstract for the #AGU22 session "Climate Controls on River Chemistry" an invited paper from #PennState-based Cluster member Li Li.
📆 🔗 : https://bit.ly/CZNAGU22121205
#CriticalZone #biogeochemistry #AGU2022 #CriticalZoneAtAGU22 #hydrology #RiverChemistry
"Explosion of synthesis opportunities" was the prompt for this image generated by #midjourney.
The prompt is a quote from the abstract for the #AGU22 online session Frontiers in #WaterQuality Science: Origins, #Patterns and Detection of Spatial and Temporal Variation II
📆 🔗 : https://bit.ly/CZNAGU22121206
#CriticalZone #CriticalZoneResearch #RiverChemistry #hydrology #biogeosciences
The chemical, physical and biological condition of waterways – “water quality” – is critical for ecological and human health. This session explores cutting-edge methods, novel synthesis products, and new models about water quality. We encourage submissions that use new tools and data sets to reveal spatio-temporal patterns in water quality across scales ranging from single catchment studies to cross-site syntheses. Wide-spread deployment of in-situ sensors has revolutionized our understanding of watershed dynamics over diel, storm, and seasonal timescales, highlighting the disproportionate impact of discrete events on annual export. Emerging capabilities for remote sensing of water quality, the explosion in synthesis opportunities, and improvements in water quality models enable new understanding of where, when, and why water quality varies, and new theories to explain these patterns. We solicit contributions that explore these water quality patterns in watersheds across the land use continuum, and particularly in systems experiencing the impacts of environmental change.
"Space-for-time substitution" was the prompt for this movie poster style image created by #midjourney. The prompt is a quote from the abstract for the #AGU22 session Climate Controls on River Chemistry
📆 🔗 : https://bit.ly/CZNAGU22121205
#CriticalZone #CriticalZoneResearch #RiverChemistry #hydrology #biogeosciences
"Spatio-temporal patterns in water quality across scales" is the prompt for this image created by #midjourney, and also a quote from the abstract for this #AGU22 session: https://bit.ly/CZNAGU22121204
Frontiers in Water-Quality Science: Origins, Patterns, and Detection of Spatial and Temporal Variation I
#CriticalZone #CriticalZoneResearch #RiverChemistry #hydrology #biogeosciences
The chemical, physical and biological condition of waterways – “water quality” – is critical for ecological and human health. This session explores cutting-edge methods, novel synthesis products, and new models about water quality. We encourage submissions that use new tools and data sets to reveal spatio-temporal patterns in water quality across scales ranging from single catchment studies to cross-site syntheses. Wide-spread deployment of in-situ sensors has revolutionized our understanding of watershed dynamics over diel, storm, and seasonal timescales, highlighting the disproportionate impact of discrete events on annual export. Emerging capabilities for remote sensing of water quality, the explosion in synthesis opportunities, and improvements in water quality models enable new understanding of where, when, and why water quality varies, and new theories to explain these patterns. We solicit contributions that explore these water quality patterns in watersheds across the land use continuum, and particularly in systems experiencing the impacts of environmental change.
The Big Data Cluster
The Big Data Cluster