In the May issue of @HYDR_Springer: https://t.co/hq5xjSxvtA "Mangroves dramatically increase carbon storage after 3 years of encroachment" by former @SoilWaterSci grad student Lorae Simpson with Dr. Todd Osborne @Whitney_Lab
RT @skchapman4: Mangrove encroachment increases wetland biomass C by over 100% in three years. Soil C follows. https://t.co/YwPju0PyZP Coo…
RT @skchapman4: Mangrove encroachment increases wetland biomass C by over 100% in three years. Soil C follows. https://t.co/YwPju0PyZP Coo…
RT @skchapman4: Mangrove encroachment increases wetland biomass C by over 100% in three years. Soil C follows. https://t.co/YwPju0PyZP Coo…
Mangrove encroachment increases wetland biomass C by over 100% in three years. Soil C follows. https://t.co/YwPju0PyZP Cool work Lorae Simpson, @icfeller and Todd Osborne!
RT @Whitney_Lab: #OsborneLab publishes "Mangroves dramatically increase carbon storage after 3 years of encroachment" in Hydrobiologia @HYD…
RT @Whitney_Lab: #OsborneLab publishes "Mangroves dramatically increase carbon storage after 3 years of encroachment" in Hydrobiologia @HYD…
RT @Whitney_Lab: #OsborneLab publishes "Mangroves dramatically increase carbon storage after 3 years of encroachment" in Hydrobiologia @HYD…
#OsborneLab publishes "Mangroves dramatically increase carbon storage after 3 years of encroachment" in Hydrobiologia @HYDR_Springer Author list includes @NSF REU student #ChristiaStein #REUsuccess!!! @NSF_BIO @BIOSREU #LoraeSimpson https://t.co/TBPNjlbPQ