TY - GEN
T1 - Recreating a headwater stream system on a head-of-hollow fill
AU - Agourldls, C. T.
AU - Warner, R. C.
AU - Barton, C. D.
AU - Bldelspach, D. A.
AU - Jennings, G. D.
AU - Osborne, R.
AU - Marchant, J. W.
PY - 2008
Y1 - 2008
N2 - Head-of-hollow fills or valley fills have gained national attention due to increasing environmental concerns, particularly with regards to headwater stream loss. Researchers at the University of Kentucky in conjunction with outside scientists and consultants in the fields of stream restoration, wetland restoration, and mined land reclamation have developed new design methodologies for creating a headwater stream system for a head-of-hollow fill in eastern Kentucky. The design was largely built on the Forestry Reclamation Approach (FRA), which encourages a non-compacted spoil medium to promote tree growth, in an effort to address concerns related to water quantity and quality as well as habitat development. The major components of the design included 1) modifications to the crown geometry, 2) compaction of the crown to control infiltration, 3) utilization of natural channel design techniques, 4) use of the FRA to promote tree growth, 5) creation of ephemeral channels and vernal ponds, and 6) implementation of a novel bioreactor-wetland treatment system to improve water quality.
AB - Head-of-hollow fills or valley fills have gained national attention due to increasing environmental concerns, particularly with regards to headwater stream loss. Researchers at the University of Kentucky in conjunction with outside scientists and consultants in the fields of stream restoration, wetland restoration, and mined land reclamation have developed new design methodologies for creating a headwater stream system for a head-of-hollow fill in eastern Kentucky. The design was largely built on the Forestry Reclamation Approach (FRA), which encourages a non-compacted spoil medium to promote tree growth, in an effort to address concerns related to water quantity and quality as well as habitat development. The major components of the design included 1) modifications to the crown geometry, 2) compaction of the crown to control infiltration, 3) utilization of natural channel design techniques, 4) use of the FRA to promote tree growth, 5) creation of ephemeral channels and vernal ponds, and 6) implementation of a novel bioreactor-wetland treatment system to improve water quality.
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M3 - Conference contribution
AN - SCOPUS:57749187073
SN - 9781605604558
T3 - Society for Mining, Metallurgy and Exploration - SME Annual Meeting and Exhibit 2008: "New Horizons - New Challenges"
SP - 228
EP - 233
BT - Society for Mining, Metallurgy and Exploration - SME Annual Meeting and Exhibit 2008
T2 - SME Annual Meeting and Exhibit 2008: "New Horizons - New Challenges"
Y2 - 24 February 2008 through 27 February 2008
ER -