Lack of long-term effect of coarse woody debris dam restoration on ecosystem functioning and water quality in coastal plain streams

Sam L. Bickley; Brian S. Helms; Daniel Isenberg; Jack W. Feminella; Brian J. Roberts; Natalie A. Griffiths

doi:10.1086/717325

Lack of long-term effect of coarse woody debris dam restoration on ecosystem functioning and water quality in coastal plain streams

Sam L. Bickley, Brian S. Helms, Daniel Isenberg, Jack W. Feminella, Brian J. Roberts, Natalie A. Griffiths

Biodiversity and Ecosystem Health

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Coarse woody debris (CWD) addition is a restoration technique that has been used to reduce effects of landscape disturbance on instream habitat. However, efficacy of this technique for improving ecosystem condition is not well established, in part because monitoring designed to evaluate long-term efficacy is rare. We assessed the effectiveness of CWD additions in disturbed Coastal Plain streams at Fort Benning Military Installation, Georgia, USA, 14 y after initial restoration. In October 2003, 4 disturbed streams received CWD additions (restored streams), and 4 streams were left as unrestored controls. Pre-restoration (2001–2003) and post-restoration (2003–2006) monitoring of nutrient uptake, stream metabolism, and water-quality variables revealed 1) minimal change in water-quality variables, 2) increased stream metabolism and nutrient-uptake rates immediately following restoration, and 3) decreased metabolism and uptake over the remainder of the 3-y post-restoration period. We returned to these streams in 2017 and 2018, measured the same variables, and found minimal long-term effects of restoration on water quality, nutrient uptake, and whole-stream metabolism indicators; however, streamwater pH decreased in all streams 14 y after restoration, and there was a weak treatment - period interaction, indicating that CWD additions may decrease pH in the long term. Further, we found few relationships between watershed disturbance and water-quality variables and ecosystem function metrics, although some relationships were apparent during certain seasons and years. Our study is one of the few that have assessed the long-term effects of CWD additions, or any other stream-restoration technique, on ecosystem function. These long-term assessments may be necessary to determine if restorations are a good use of limited resources.

Original language	English
Pages (from-to)	593-607
Number of pages	15
Journal	Freshwater Science
Volume	40
Issue number	4
DOIs	https://doi.org/10.1086/717325
State	Published - Dec 2021

Funding

This manuscript has been co-authored by UT-Battelle, LLC, under contract no. DE-AC05-00OR22725 with the United States Department of Energy (USDOE). The United States government retains, and the publisher, by accepting the article for publication, acknowledges that the United States government retains, a non-exclusive, paid-up, irrevocable, world-wide license to publish or reproduce the published form of this manuscript, or allow others to do so, for United States government purposes. The USDOE will provide public access to these results of federally sponsored research in accordance with the USDOE Public Access Plan (http:// energy.gov/downloads/doe-public-access-plan). This research was supported by a grant from the Department of Defense Strategic Environmental Research and Development Program. Oak Ridge National Laboratory is managed by UT-Battelle, LLC, for the USDOE under contract DE-AC05-00OR22725. We thank J. Parker from the Fort Benning Land Management Branch for site access and fieldwork scheduling, J. Houser for providing data from the original study, T. Steury for providing assistance with statistical analysis, A. Fortner and J. Phillips for technical assistance, and K. Fogelman for field assistance. Lastly, we thank 2 anonymous reviewers and the associate editor for their comments, which improved the manuscript. This research was supported by a grant from the Department of Defense Strategic Environmental Research and Development Program. Oak Ridge National Laboratory is managed by UT-Battelle, LLC, for the USDOE under contract DE-AC05-00OR22725. We thank J. Parker from the Fort Benning Land Management Branch for site access and fieldwork scheduling, J. Houser for providing data from the original study, T. Steury for providing assistance with statistical analysis, A. Fortner and J. Phillips for technical assistance, and K. Fogelman for field assistance. Lastly, we thank 2 anonymous reviewers and the associate editor for their comments, which improved the manuscript.

Keywords

Ammonium uptake
Coastal Plain
Ecosystem respiration
Gross primary production
Habitat restoration
Large-wood addition
Long-term efficacy
Southeastern US
Upland disturbance
Water quality

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title = "Lack of long-term effect of coarse woody debris dam restoration on ecosystem functioning and water quality in coastal plain streams",

abstract = "Coarse woody debris (CWD) addition is a restoration technique that has been used to reduce effects of landscape disturbance on instream habitat. However, efficacy of this technique for improving ecosystem condition is not well established, in part because monitoring designed to evaluate long-term efficacy is rare. We assessed the effectiveness of CWD additions in disturbed Coastal Plain streams at Fort Benning Military Installation, Georgia, USA, 14 y after initial restoration. In October 2003, 4 disturbed streams received CWD additions (restored streams), and 4 streams were left as unrestored controls. Pre-restoration (2001–2003) and post-restoration (2003–2006) monitoring of nutrient uptake, stream metabolism, and water-quality variables revealed 1) minimal change in water-quality variables, 2) increased stream metabolism and nutrient-uptake rates immediately following restoration, and 3) decreased metabolism and uptake over the remainder of the 3-y post-restoration period. We returned to these streams in 2017 and 2018, measured the same variables, and found minimal long-term effects of restoration on water quality, nutrient uptake, and whole-stream metabolism indicators; however, streamwater pH decreased in all streams 14 y after restoration, and there was a weak treatment - period interaction, indicating that CWD additions may decrease pH in the long term. Further, we found few relationships between watershed disturbance and water-quality variables and ecosystem function metrics, although some relationships were apparent during certain seasons and years. Our study is one of the few that have assessed the long-term effects of CWD additions, or any other stream-restoration technique, on ecosystem function. These long-term assessments may be necessary to determine if restorations are a good use of limited resources.",

keywords = "Ammonium uptake, Coastal Plain, Ecosystem respiration, Gross primary production, Habitat restoration, Large-wood addition, Long-term efficacy, Southeastern US, Upland disturbance, Water quality",

author = "Bickley, \{Sam L.\} and Helms, \{Brian S.\} and Daniel Isenberg and Feminella, \{Jack W.\} and Roberts, \{Brian J.\} and Griffiths, \{Natalie A.\}",

year = "2021",

month = dec,

doi = "10.1086/717325",

language = "English",

volume = "40",

pages = "593--607",

journal = "Freshwater Science",

issn = "2161-9549",

publisher = "The University of Chicago Press",

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TY - JOUR

T1 - Lack of long-term effect of coarse woody debris dam restoration on ecosystem functioning and water quality in coastal plain streams

AU - Bickley, Sam L.

AU - Helms, Brian S.

AU - Isenberg, Daniel

AU - Feminella, Jack W.

AU - Roberts, Brian J.

AU - Griffiths, Natalie A.

PY - 2021/12

Y1 - 2021/12

N2 - Coarse woody debris (CWD) addition is a restoration technique that has been used to reduce effects of landscape disturbance on instream habitat. However, efficacy of this technique for improving ecosystem condition is not well established, in part because monitoring designed to evaluate long-term efficacy is rare. We assessed the effectiveness of CWD additions in disturbed Coastal Plain streams at Fort Benning Military Installation, Georgia, USA, 14 y after initial restoration. In October 2003, 4 disturbed streams received CWD additions (restored streams), and 4 streams were left as unrestored controls. Pre-restoration (2001–2003) and post-restoration (2003–2006) monitoring of nutrient uptake, stream metabolism, and water-quality variables revealed 1) minimal change in water-quality variables, 2) increased stream metabolism and nutrient-uptake rates immediately following restoration, and 3) decreased metabolism and uptake over the remainder of the 3-y post-restoration period. We returned to these streams in 2017 and 2018, measured the same variables, and found minimal long-term effects of restoration on water quality, nutrient uptake, and whole-stream metabolism indicators; however, streamwater pH decreased in all streams 14 y after restoration, and there was a weak treatment - period interaction, indicating that CWD additions may decrease pH in the long term. Further, we found few relationships between watershed disturbance and water-quality variables and ecosystem function metrics, although some relationships were apparent during certain seasons and years. Our study is one of the few that have assessed the long-term effects of CWD additions, or any other stream-restoration technique, on ecosystem function. These long-term assessments may be necessary to determine if restorations are a good use of limited resources.

AB - Coarse woody debris (CWD) addition is a restoration technique that has been used to reduce effects of landscape disturbance on instream habitat. However, efficacy of this technique for improving ecosystem condition is not well established, in part because monitoring designed to evaluate long-term efficacy is rare. We assessed the effectiveness of CWD additions in disturbed Coastal Plain streams at Fort Benning Military Installation, Georgia, USA, 14 y after initial restoration. In October 2003, 4 disturbed streams received CWD additions (restored streams), and 4 streams were left as unrestored controls. Pre-restoration (2001–2003) and post-restoration (2003–2006) monitoring of nutrient uptake, stream metabolism, and water-quality variables revealed 1) minimal change in water-quality variables, 2) increased stream metabolism and nutrient-uptake rates immediately following restoration, and 3) decreased metabolism and uptake over the remainder of the 3-y post-restoration period. We returned to these streams in 2017 and 2018, measured the same variables, and found minimal long-term effects of restoration on water quality, nutrient uptake, and whole-stream metabolism indicators; however, streamwater pH decreased in all streams 14 y after restoration, and there was a weak treatment - period interaction, indicating that CWD additions may decrease pH in the long term. Further, we found few relationships between watershed disturbance and water-quality variables and ecosystem function metrics, although some relationships were apparent during certain seasons and years. Our study is one of the few that have assessed the long-term effects of CWD additions, or any other stream-restoration technique, on ecosystem function. These long-term assessments may be necessary to determine if restorations are a good use of limited resources.

KW - Ammonium uptake

KW - Coastal Plain

KW - Ecosystem respiration

KW - Gross primary production

KW - Habitat restoration

KW - Large-wood addition

KW - Long-term efficacy

KW - Southeastern US

KW - Upland disturbance

KW - Water quality

UR - https://www.scopus.com/pages/publications/85117856937

U2 - 10.1086/717325

DO - 10.1086/717325

M3 - Article

AN - SCOPUS:85117856937

SN - 2161-9549

VL - 40

SP - 593

EP - 607

JO - Freshwater Science

JF - Freshwater Science

IS - 4

ER -

Lack of long-term effect of coarse woody debris dam restoration on ecosystem functioning and water quality in coastal plain streams

Abstract

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