Man

Sebastian Alberto Krogh Navarro

Profesor Asociado

Universidad de Concepción

Chillán, Chile

Líneas de Investigación


My interest are in the field of water resources, with emphasis in mountain hydrology, with focus in the understanding of the spatiotemporal variability of snow accumulation and melt patterns, in different landscapes and climate conditions.

Educación

  •  Water Resources and Hydrology, UNIVERSITY OF SASKATCHEWAN. Canada, 2019
  •  Water Resources and Environment, UNIVERSIDAD DE CHILE. Chile, 2013
  •  Civil Engineer, UNIVERSIDAD DE CHILE. Chile, 2013

Experiencia Académica

  •   Profesor Asociado Full Time

    UNIVERSIDAD DE CONCEPCION

    Facultad de Ingeniería Agrícola

    Chillán, Chile

    2021 - At present

  •   Postdoc Full Time

    UNIVERSITY OF NEVADA

    Reno, Estados Unidos

    2018 - 2021

Experiencia Profesional

  •   Project Engineer Full Time

    Golder Associates S.A.

    Santiago, Chile

    2012 - 2013


 

Article (15)

Antecedent Snowpack Cold Content Alters the Hydrologic Response to Extreme Rain-on-Snow Events
The prediction of uneven snowpack response to forest thinning informs forest restoration in the central Sierra Nevada
Diel streamflow cycles suggest more sensitive snowmelt-driven streamflow to climate change than land surface modeling does
Subsurface Lateral Flows Buffer Riparian Water Stress Against Snow Drought
The cold regions hydrological modelling platform for hydrological diagnosis and prediction based on process understanding
Dryline characteristics in North America's historical and future climates
Simulating site-scale permafrost hydrology: Sensitivity to modelling decisions and air temperature
Unraveling the Controls on Snow Disappearance in Montane Conifer Forests Using Multi-Site Lidar
Increasing the efficacy of forest thinning for snow using high-resolution modeling: A proof of concept in the Lake Tahoe Basin, California, USA
Shifting Hydrological Processes in a Canadian Agroforested Catchment due to a Warmer and Wetter Climate
Using Process Based Snow Modeling and Lidar to Predict the Effects of Forest Thinning on the Northern Sierra Nevada Snowpack
Impact of Future Climate and Vegetation on the Hydrology of an Arctic Headwater Basin at the Tundra-Taiga Transition
Recent changes to the hydrological cycle of an Arctic basin at the tundra-taiga transition
Diagnosis of the hydrology of a small Arctic basin at the tundra-taiga transition using a physically based hydrological model
Physically Based Mountain Hydrological Modeling Using Reanalysis Data in Patagonia

Proyecto (4)

Towards improved hydrological predictions at the forest and snow intersect in the Chilean Andes
From Snow to Flow=> Targeted Forest Management Strategies to Increase Streamflow For Ecosystems and People in the Tahoe-Truckee Basin
Sensitivity of Dempster Highway Hydrological Response to Climate Change
Climate and streamflow varibility in the sub-antarctic region of south America (450 - 560 S) during the last 500 years=> integrating tree-rings instrumental records and hydro-climatic modeling.

Review (1)

Why does snowmelt-driven streamflow response to warming vary? A data-driven review and predictive framework
17
Sebastian Krogh

Profesor Asociado

Recursos Hídricos

Universidad de Concepción

Chillán, Chile

2
María Scaff

Asistant Professor

Geofísica

Universidad de Concepción

Concepción, Chile

1
James McPhee

Professor

Civil Engineering

UNIVERSIDAD DE CHILE

Santiago, Chile