@HydroHammond We also used modified HOBO Pendant Temperature/Light 64 K data loggers following Chapin et al.: https://t.co/r5mbnrF9Ny
RT @kjmcguire: Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows…
RT @kjmcguire: Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows…
RT @kjmcguire: Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows…
RT @kjmcguire: Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows…
RT @kjmcguire: Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows…
RT @kjmcguire: Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows…
RT @kjmcguire: Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows…
Jensen et al. paper, Quantifying spatiotemporal variation in headwater stream length using flow intermittency sensors, shows hysteresis in wet stream length and dynamic network expansion/contraction. https://t.co/EAzLoj4k09 @ScottDurelle @VaWaterCenter htt
Jensen et al. use flow intermittence sensors to quantify spatiotemporal variation in stream length in headwater IRES @apaillex @eric_sauquet https://t.co/EGImhkTs6a