Add to ORKGThis study investigates the effects of fire on the chemistry and flux of precipitation diverted to the forest floor as stemflow and throughfall by observing the impact of the June 2013 Thompson Ridge Wildfire in the Jemez River Basin of New Mexico. The loss of canopy cover from wildfire drastically modifies landscapes and alters ecosystems as fire replaces leafy canopies with charred branches and trunks, changes soil composition and erosion processes, and affects hydrologic flow paths and water chemistry. In order to track these changes, throughfall and stemflow collectors were installed beneath burned and unburned canopies in two catchments impacted by the Thompson Ridge Fire. Throughfall, stemflow, and open precipitation samples were anal...
Wildfire alters hydrologic and geomorphic systems, promoting increases in runoff and erosion relativ...
Wildfire makes landscapes more vulnerable to debris flows by reducing soil infiltration capacity and...
Wildfire affects landscape ecohydrologic processes through feedbacks between fire effects, vegetatio...
The critical zone (CZ) is the section of the Earth where most of the life takes place, which extends...
This study tracked the catchment-scale solid and aqueous phase soil chemistry during the immediate a...
International audienceThe current understanding of wildfire effects on water chemistry is limited by...
The purpose of this project is to characterize stream water chemistry and soil water chemistry in re...
The effects of fire on soil and water chemistry have been an area of intense study in recent years. ...
From 2011 to 2014, one of the most severe and intense droughts in Texas recorded history led to wide...
This study investigates translocation of particulate carbon and nitrogen from burned and unburned ca...
Climate change in the western U.S. is causing larger wildfires and more extreme precipitation events...
Wildfire can have significant impacts on hydrological processes in forested catchments, and a key ar...
We evaluated differences in the effects of three low-severity spring prescribed burns and four wildf...
There is substantial uncertainty regarding the effects of wildfire on forest ecosystem regeneration....
We evaluated differences in the effects of three low-severity spring prescribed burns and four wildf...
Wildfire alters hydrologic and geomorphic systems, promoting increases in runoff and erosion relativ...
Wildfire makes landscapes more vulnerable to debris flows by reducing soil infiltration capacity and...
Wildfire affects landscape ecohydrologic processes through feedbacks between fire effects, vegetatio...
The critical zone (CZ) is the section of the Earth where most of the life takes place, which extends...
This study tracked the catchment-scale solid and aqueous phase soil chemistry during the immediate a...
International audienceThe current understanding of wildfire effects on water chemistry is limited by...
The purpose of this project is to characterize stream water chemistry and soil water chemistry in re...
The effects of fire on soil and water chemistry have been an area of intense study in recent years. ...
From 2011 to 2014, one of the most severe and intense droughts in Texas recorded history led to wide...
This study investigates translocation of particulate carbon and nitrogen from burned and unburned ca...
Climate change in the western U.S. is causing larger wildfires and more extreme precipitation events...
Wildfire can have significant impacts on hydrological processes in forested catchments, and a key ar...
We evaluated differences in the effects of three low-severity spring prescribed burns and four wildf...
There is substantial uncertainty regarding the effects of wildfire on forest ecosystem regeneration....
We evaluated differences in the effects of three low-severity spring prescribed burns and four wildf...
Wildfire alters hydrologic and geomorphic systems, promoting increases in runoff and erosion relativ...
Wildfire makes landscapes more vulnerable to debris flows by reducing soil infiltration capacity and...
Wildfire affects landscape ecohydrologic processes through feedbacks between fire effects, vegetatio...