Sprinkling on the model

Kevin, Brian, and I went to Coweeta to improve the irrigation system. They installed a pressure pump to the water line, then we placed tipping bucket rain gauges at randomized locations, and then Brian turned on the water. Water pressure was high enough! We tuned each sprinkler head so that water reached just to the other side of the soil model. Data from the rain gauges showed how much water we sprinkled. Overall, the irrigation system looked very good. I will return to fine-tune the water pressure settings and irrigation timing, then wet up the soil model so that we can install more monitoring instruments. Before we left, I opened the met station data logger and found several wiggling wasp larvae inside their nest! I relocated them and, luckily, nobody was hurt.



Posted in Field work, Lab news Tagged with: , ,

Summer 2015 at Hubbard Brook

Mt. Pleasant next to Mt. Washington. Left to right: Tyler Hampton (REU student), Kyle Corcoran (REU student), Carrie Jensen, Kevin McGuire, and Scott Bailey (USFS).

Mt. Pleasant next to Mt. Washington. Left to right: Tyler Hampton (REU student), Kyle Corcoran (REU student), Carrie Jensen, Kevin McGuire, and Scott Bailey (USFS).

It’s that time of year again…the Hubbard Brook Cooperator’s Meeting!  This year we celebrated the 60th anniversary of the Hubbard Brook Experimental Forest.  We had a record attendance at the meeting, and as usual, it was full of great talks and good conversations with colleagues.  Four REU students are working on hydropedology and stream network project this year.  They are amazingly hard workers and full of great questions.

Posted in Lab news Tagged with:

Two new papers on water travel times in catchments

wrr_scrshotTwo new papers are available in Water Resources Research on water travel time estimation in catchments.  Both represent collaborations with colleagues to advance techniques in understanding the transient nature of travel time distributions.  We’re getting closer and closer to answering the question: how old is that water in the stream?

Rinaldo, A., Benettin, P., Harman, C., Hrachowitz, M., McGuire, K., Van der Velde, Y., Bertuzzo, E., Botter, G., 2015. Storage selection functions: A coherent framework for quantifying how catchments store and release water and solutes, Water Resources Research, doi: 10.1002/2015WR017273.

Klaus, J., Chon, K.P., McGuire, K.J., McDonnell, J.J., 2015. Temporal dynamics of catchment transit times from stable isotope data, Water Resources Research, doi: 10.1002/2014WR016247.

Posted in Commentary, Lab news, Research paper Tagged with: , ,

Filtration, Irrigation, and Preliminary Instrumentation

Kevin, Brian, and I installed a reverse osmosis filtration system, an irrigation line, an electrical line, and several data instruments/loggers. This included pounding a 7-foot copper grounding rod into the ground. The filtration system is used to change the chemistry of local tap water to resemble that of rainfall for our experiment. Sunny weather, with only an occasional thundershower, helped the installation move on schedule.

There was quite a bit of vegetation growing in the soil model, to our surprise! It could have been due to warmth inside the hoop-house. I clipped the vegetation and Brian sprayed an herbicide to suppress future growth. Now that most of the infrastructure is built, I am thinking about the next trip to Coweeta, when I will install the rest of the instrumentation: (3) soil moisture and temperature probes, (3) tensiometers, (12) lysimeters, (5) rain gauge tipping buckets, and (1) piezometer; hundreds of meters of extension cables; and dozens of batteries!

Posted in Field work, Lab news Tagged with: , ,

New paper on lidar DEM evaluation by Cody Gillin

2015_MayGillin, C.P., Bailey, S.W., McGuire, K.J., Prisley, S.P., 2015. Evaluation of lidar-derived DEMs through terrain analysis and field comparison, Photogrammetric Engineering & Remote Sensing, 81(5): 387-396, doi: 10.14358/PERS.81.5.387.


Topographic analysis of watershed-scale soil and hydrological processes using digital elevation models (DEMs) is commonplace, but most studies have used DEMs of 10 m resolution or coarser. Availability of higher-resolution DEMs created from light detec- tion and ranging (lidar) data is increasing but their suitability for such applications has received little critical evaluation. Two different 1 m DEMs were re-sampled to 3, 5, and 10 m resolu- tions and used with and without a low-pass smoothing filter to delineate catchment boundaries and calculate topographic metrics. Accuracy was assessed through comparison with field slope measurements and total station surveys. DEMs provided a good estimate of slope values when grid resolution reflected the field measurement scale. Intermediate scale DEMs were most consistent with land survey techniques in delineating catchment boundaries. Upslope accumulated area was most sensitive to grid resolution, with intermediate resolutions producing a range of UAA values useful in soil and groundwater analysis.

Posted in Lab news, Research paper Tagged with: , , , , , ,

Hoop-House at Coweeta

Construction on the soil model at Coweeta Hydrologic Laboratory has begun! We will be using the model for a water and nutrient reaction and transport experiment to answer questions, such as: What is the dominant process (e.g., biogeochemical or hydrologic) for controlling export of nutrients from a hillslope? Under what conditions can we expect these controls to change? How does subsurface flow vary spatially along a hillslope?

The model was built for an experiment by John Hewlett and Alden Hibbert in 1963 to measure and describe nonstorm flow of water through soil along a hillslope to support base flow generation. (A picture of a similar, precursor soil model, used by John Hewlett and Lloyd Swift in 1961, is shown.) The model has not been used since then.

Kevin, Brian, and I surveyed the model—it looked good—and cleaned up leaf litter and debris around it. Then we constructed a hoop-house, a shelter made from lumber, rebar, PVC pipes, and a large plastic sheet (which weighed over 100 pounds!). Guy-ropes held it in place. The hoop-house is designed to keep out rain while letting in sunlight. Nobody was hurt during the field trip, although the hillslope was steep and slippery, the stairway narrow, and the weather wet.


Posted in Field work, Lab news Tagged with: , ,

New paper published on erosion modeling on forest roads

jofKris Brown had another paper published.  The study evaluated the model Water Erosion Prediction Project (WEPP) in predicting event-based sediment yield and runoff for a series of rainfall experiments on six stream-crossing sections of forest roads with different intensities of best management practices.  For more information, please check out the paper.

Brown, K.R., McGuire, K.J., Hession, W.C., and Aust, W.M., 2015. Can the Water Erosion Prediction Project (WEPP) model be used to evaluate BMP effectiveness from forest roads? Journal of Forestry, doi: 10.5849/jof.14-101.

Posted in Lab news, Research paper Tagged with: , , , , , ,

Brian McGlynn visited us last week



Brian McGlynn from Duke University visited the lab last week.  Brian gave a great seminar that was co-hosted by ICTAS and the Water Center.  It was well attended and generated great discussion.  We all thank Brian for coming to visit us at Tech.

Posted in Lab news, Seminars, Visitors

Looking for undergraduate student researchers: 2015 Hubbard Brook REU program

REU students (Tyler and Patricia) receiving some soils training from the State Soil Scientist.

Water quality, soils and fluvial geomorphology of a headwater stream network

Seeking 4 undergraduate student researchers for National Science Foundation funded REU program at the Hubbard Brook LTER site in New Hampshire.

Project description: Where do forests end and streams begin? This seemingly simple question turns out to defy an easy answer. Headwater streams, such as those at Hubbard Brook, comprise the vast majority of riverine miles, set regional water quality, and represent the interface between terrestrial and aquatic systems. As a team, we will explore the vast network of headwater streams across the Hubbard Brook Valley and their relationships to their tributary watersheds. Students will participate in both group and individual research. For the group project we will come together as a team several times during the program to sample portions of the Hubbard Brook tributary stream network at a fine spatial scale over a short time period. These “snap shots” will be used to decipher potential mechanisms that regulate spatial water quality patterns. Each student will also develop an individual project based on the student’s interests and background. Individual projects could include (1) mapping stream channel geomorphology and exploring relationships to topography and streamflow quantity, (2) measuring hydrologic exchange between streams and groundwater, and (3) characterizing variation in soil morphology and chemistry in streamside environments. Skills in GIS, field survey and mapping, soil description and sampling, and water sampling and analysis will be practiced and developed.

Project mentors include: Drs. Kevin McGuireScott Bailey, Mark Green, Denise Burchsted.  REU students will also work closely with Ph.D student Carrie Jensen.

Applications are due February 6, 2015.

For application information go to http://hubbardbrookreu.org and for project inquiries, contact Kevin McGuire.

Posted in Jobs, Undergraduate research

AGU 2014…check out this session on tracers!

McGuire is co-convening a session with Josie Geris, Daniele Penna, and Julian Klaus called “New Developments in Tracer Applications in Catchment Hydrology.”  If you are attending the meeting next week, please come to our session.  The program is available below:

Papers – Tuesday, Moscone West



Read more ›

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