Dan Neilans Thesis Page
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Article Files
Revised manuscript
Seepage Meter Paper - revision 1 - revisions will be made to the MS Word file to use the line numbers to reference in the response to the review of Neilans and Urbano, 2007 from Journal of Hydrology
Reviews of original submission
- Review of Neilans and Urbano, 2007 from Journal of Hydrology
- Loosahatchie References - additional references suggested by reviewers.
Original submission
Neilans and Urbano, 2007: Neilans, D., and Urbano, L.D., Assessing meter-scale heterogeneity of groundwater discharge using streambed thermal mapping, Journal of Hydrology, (in review) (manuscript: Seepage Meter Paper - version 10)
To the Journal of Hydrology. The text is in the MS Word .doc format, while the images are .tif.
Text files
- Cover letter:
- Manuscript (including title page with abstract):
- Figure captions:
Images
- Dan's figures v2 - The .tif files
Old files
Seepage Meter Paper - version 1
Seepage Meter Paper - version 2
Seepage Meter Paper - version 3 with black and white figures
Seepage Meter Paper - version 4 with black and white figures
Seepage Meter Paper - version 5 with black and white figures
Seepage Meter Paper - version 6 with black and white figures
Seepage Meter Paper - version 7 with black and white figures
Seepage Meter Paper - version 8 with black and white figures
Seepage Meter Paper - version 9 with black and white figures
Defence
defense powerpoint - Dan Neilans
Seepage Meter Paper
Seepage Meter Paper - version 10 with black and white figures
Hyp 1 and 2 chapter - version 2
Groundwater derived chemical effects on river geomorphology
Variograms and example of linear vs. spherical kriging
Thesis Chapters
Unused Chapters
Groundwater Discharge Localized Effects, Hypothesis 1 and 2
Resistance of River Bed, Hypothesis 3
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Hypothesis Testing
Computer Modeling
Field Site
Data Files
Summer Research
Research Assistants
- First Loosahatchie Trip
- Testing the temperature probe (the bi-dent?)
- Second Loosahatchie Trip
- Testing the Acoustic Dopplar Pontoon Boat
- Third Loosahatchie Trip
- Creating Transect lines along a sand bar
- Forth Loosahatchie Trip
- Revisiting the transect lines and retrying the bident
- Fifth Loosahatchie Trip
- Revisiting the transect lines and retrying the bident....again....with better results
- Sixth Loosahatchie Trip
- Recording flow rate with the $10,000 pontoon
- Seventh Loosahatchie Trip
- Bident no more, only surface temps, in high detail
- Eighth Loosahatchie Trip
- Temperature probe follow up and 3d photography tests
- Tenth Loosahatchie Trip - the helium balloon camera
- Eleventh Loosahatchie Trip - more balloon cam pictures.
- 8-03-06
- Twelth Loosahatchie Trip
- 8-10-06
- Thirteenth Loosahatchie Trip
- 8-11-06
- Fourteenth Loosahatchie Trip
- 8-20-06
- Fifteenth Loosahatchie Trip
- 8-24-06
- Sixteenth Loosahatchie Trip
- 8-26-06
- Seventeenth Loosahatchie Trip
- 9-02-06
- Eighteenth Loosahatchie Trip
- 9-06-06
- Nineteenth Loosahatchie Trip
- 9-10-06
- Twentyfirst Loosahatchie Trip
- 10-01-06
- Twentysecond Loosahatchie Trip
- 10-11-06
Log Book
What we have learned so far
- Springs appear to occur in small, 1 meter in diameter, areas.
- Sping locations are reletively fixed
- bars will migrate around springs
- Temperature gradient is just as easily seen at bed surface as it is 20 cm below bed surface
- Springs create quick sand locations where you can sink as much as a meter into the sand instantly</gallery>
Prospective Paper Ideas
Identifying Springs By Means of Aereal Photography
