RT @FredrikJutfelt: Marine species distributions determined by oxygen availability and metabolic rates? New interesting paper in nature. #…
RT @FredrikJutfelt: Marine species distributions determined by oxygen availability and metabolic rates? New interesting paper in nature. #…
RT @MIZ_BIOS: This is one of those "must read" papers if you are working in #zooplankton ecology, biogeography, or just #ocean #biogeochemi…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @FredrikJutfelt: Marine species distributions determined by oxygen availability and metabolic rates? New interesting paper in nature. #…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RRT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species. https://t.co/SPrUJa86hm https://t.co/2LhARs9U4l
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @MIZ_BIOS: This is one of those "must read" papers if you are working in #zooplankton ecology, biogeography, or just #ocean #biogeochemi…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
Varying temperature and hypoxia conditions across ecosystems result in a breadth of physiological tolerances and energy requirements among organisms that ultimately shape their spatial distribution. A gasping read! @nature https://t.co/dgPCudYEXZ
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @MIZ_BIOS: This is one of those "must read" papers if you are working in #zooplankton ecology, biogeography, or just #ocean #biogeochemi…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @MIZ_BIOS: This is one of those "must read" papers if you are working in #zooplankton ecology, biogeography, or just #ocean #biogeochemi…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @MIZ_BIOS: This is one of those "must read" papers if you are working in #zooplankton ecology, biogeography, or just #ocean #biogeochemi…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
This is one of those "must read" papers if you are working in #zooplankton ecology, biogeography, or just #ocean #biogeochemistry modeling, including zooplankton Metabolic trait diversity shapes marine biogeography https://t.co/kEvtGdSAzh
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
@MI_Duncs check this out
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
#RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species. https://t.co/YEmSsckVKT https://t.co/YfTl90d8Ms
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
RT @nature: A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species.…
A study in Nature reports that temperature-dependent tolerance to low oxygen levels governs the distribution of marine species. https://t.co/0DMbJhWr81 https://t.co/UkjUrjGTN0
RT @T_Norin: This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustai…
This paper is an amazing example of how good old lab-derived physiological traits such as resting- and maximum (ideally sustained) metabolic rates, Pcrit and CTmax can be used to predict species ranges (and get into @nature). Impressive work! https://t.co/
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
RT @pinskylab: Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeogr…
Important new paper from Curtis Deutsch, Justin Penn, and Brad Seibel linking both oxygen and temperature to marine biogeography. Next question: what is the relative role of changes in oxygen and in temperature to explain #SpeciesOnTheMove already? https:/