![OS - Four-dimensional temperature, salinity and mixed-layer depth in the Gulf Stream, reconstructed from remote-sensing and in situ observations with neural networks OS - Four-dimensional temperature, salinity and mixed-layer depth in the Gulf Stream, reconstructed from remote-sensing and in situ observations with neural networks](https://os.copernicus.org/articles/18/1221/2022/os-18-1221-2022-f02-web.png)
OS - Four-dimensional temperature, salinity and mixed-layer depth in the Gulf Stream, reconstructed from remote-sensing and in situ observations with neural networks
![Groundwater transport in the Maryland Coastal Bays | Media Library | Integration and Application Network Groundwater transport in the Maryland Coastal Bays | Media Library | Integration and Application Network](https://ian.umces.edu/site/assets/files/19774/groundwater-transport-in-the-maryland-coastal-bays.png)
Groundwater transport in the Maryland Coastal Bays | Media Library | Integration and Application Network
![arcgis desktop - How to combine multiple overlapping polygon shapefiles into 1 - retain top most layer - Geographic Information Systems Stack Exchange arcgis desktop - How to combine multiple overlapping polygon shapefiles into 1 - retain top most layer - Geographic Information Systems Stack Exchange](https://i.stack.imgur.com/LUZD2.png)
arcgis desktop - How to combine multiple overlapping polygon shapefiles into 1 - retain top most layer - Geographic Information Systems Stack Exchange
![The role of superficial geology in controlling groundwater recharge in the weathered crystalline basement of semi-arid Tanzania - ScienceDirect The role of superficial geology in controlling groundwater recharge in the weathered crystalline basement of semi-arid Tanzania - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S2214581821000628-gr6.jpg)
The role of superficial geology in controlling groundwater recharge in the weathered crystalline basement of semi-arid Tanzania - ScienceDirect
![Seasonal evolution of active layer thaw depth and hillslope‐stream connectivity in a permafrost watershed - Chiasson‐Poirier - 2020 - Water Resources Research - Wiley Online Library Seasonal evolution of active layer thaw depth and hillslope‐stream connectivity in a permafrost watershed - Chiasson‐Poirier - 2020 - Water Resources Research - Wiley Online Library](https://agupubs.onlinelibrary.wiley.com/cms/asset/9afa2c23-c9bb-477e-ad0c-b422402acddd/wrcr24365-fig-0005-m.jpg)
Seasonal evolution of active layer thaw depth and hillslope‐stream connectivity in a permafrost watershed - Chiasson‐Poirier - 2020 - Water Resources Research - Wiley Online Library
![Miles Reed ⛏️ on X: "The first paper from my PhD came out a few days back in @JGREarthSurface [https://t.co/69Aw8MLw8l (OA)]. We (Ken Ferrier & Taylor Perron) wanted to create a landscape Miles Reed ⛏️ on X: "The first paper from my PhD came out a few days back in @JGREarthSurface [https://t.co/69Aw8MLw8l (OA)]. We (Ken Ferrier & Taylor Perron) wanted to create a landscape](https://pbs.twimg.com/media/F9dAuOfXEAAkShm.jpg)
Miles Reed ⛏️ on X: "The first paper from my PhD came out a few days back in @JGREarthSurface [https://t.co/69Aw8MLw8l (OA)]. We (Ken Ferrier & Taylor Perron) wanted to create a landscape
![Bedrock geochemistry influences vegetation growth by regulating the regolith water holding capacity | Nature Communications Bedrock geochemistry influences vegetation growth by regulating the regolith water holding capacity | Nature Communications](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41467-020-16156-1/MediaObjects/41467_2020_16156_Fig1_HTML.png)