Characterization of large wood and its relationship to pool formation and macroinvertebrate metrics in southeastern coastal plain streams, USA

Stewart, Paul M.; Bhattarai, Sameer; Müllen, Michael W.; Metcalf, Christopher K.; Reátegui‐Zirena, Evelyn G.

doi:10.1080/02705060.2012.679322

Cited by 12 publications

(7 citation statements)

References 36 publications

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“…The increase in taxa richness among both benthic macroinvertebrate and adult caddisfly faunas at forest sites suggested the importance of habitat heterogeneity in promoting biological diversity. Many studies have noted a link between macroinvertebrate taxa richness and increased in-stream coarse woody debris due to its use as a food source and shelter, area for biofilm colonization, ability to stabilize stream banks and channels, and indirect effects on habitat variability (Rios and Bailey 2006, Urban et al 2006, Schneider and Winemiller 2008, Houghton et al 2011, Stewart et al 2012, Pilotto et al 2014. In our study, site 6 had the highest amount of both woody debris and species richness, adding further support to the idea.…”

Section: Discussionsupporting

confidence: 85%

Serial discontinuity in naturally alternating forest and floodplain habitats of a Michigan (USA) stream based on physicochemistry, benthic metabolism, and organismal assemblages

Houghton

Albers

Fitch

et al. 2018

Journal of Freshwater Ecology

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We tested the response of several different water quality metrics at 6 sites along a 4-km alternating forest (canopied) and floodplain (non-canopied) reach of the East Branch of the Black River, an undisturbed northern Lower Michigan trout stream, during summer 2015. Physicochemical parameters were unchanged between sites and reflected an undisturbed continuum. In-stream woody debris was higher at the forest sites, whereas relative canopy cover and sunlight intensity were higher at the floodplain sites. Both benthic macroinvertebrates and adult caddisflies exhibited greater species richness and a higher abundance of shredders at the forest sites, and a higher abundance of scrapers at the floodplain sites. Fish specimen abundance, species richness, and percentage of trout were not different between sites, and instead all increased throughout the summer. Community respiration was unchanged between the single tested floodplain site and the forest sites upstream and downstream of it. Gross primary production and net daily metabolism were higher at the floodplain site, leading to stream autotrophy. This result was also obtained when tested in summer 2017. Our results support the idea that terrestrial habitat changes can singularly affect the fundamental ecological functioning of an undisturbed stream, primarily due to deviations in sunlight penetration and allochthonous input. Moreover, the short distances between sites with alternating results indicate the dynamic and serially discontinuous state of natural rivers.

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Section: Discussionsupporting

confidence: 85%

Serial discontinuity in naturally alternating forest and floodplain habitats of a Michigan (USA) stream based on physicochemistry, benthic metabolism, and organismal assemblages

Houghton

Albers

Fitch

et al. 2018

Journal of Freshwater Ecology

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“…Where riparian forests shade a substantial portion of the channel and limit photosynthesis, POM introduced from the floodplain forms the foundation of the aquatic ecosystem’s trophic cascade (Tank et al., 2010) and retention of POM for even a few hours can substantially increase the availability of nutrients to microbial and macroinvertebrate communities (Battin et al., 2008). Backwater and scour pools, overhead cover, and organic substrate associated with logjams provide important habitat for aquatic organisms (Herdrich et al., 2018; Richmond & Fausch, 1995; Stewart et al., 2012) and logjams in abandoned channels that have accreted to the floodplain provide habitat for terrestrial organisms (Harmon et al., 1986; Pettit et al., 2005). Logjams increase pressure gradients within the channel that enhance hyporheic exchange flows (Doughty et al., 2020; Hester & Doyle, 2008; Sawyer et al., 2011) and logjams obstruct flow and enhance overbank flow and lateral channel migration, thus enhancing channel‐floodplain connectivity (Collins et al., 2012; Jeffries et al., 2003; Wohl, 2011).…”

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

All Logjams Are Not Created Equal

Livers

Wohl

2021

JGR Earth Surface

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By creating flow obstructions and increasing hydraulic roughness, logjams create diverse physical and ecological effects in stream channels. Logjams alter the distribution and magnitude of hydraulic forces (Curran & Wohl, 2003;Manners et al., 2007;Wilcox et al., 2011), as well as the transport of sediment and particulate organic matter (POM) (Beckman & Wohl, 2014a;Brummer et al., 2006). Where riparian forests shade a substantial portion of the channel and limit photosynthesis, POM introduced from the floodplain forms the foundation of the aquatic ecosystem's trophic cascade (Tank et al., 2010) and retention of POM for even a few hours can substantially increase the availability of nutrients to microbial and macroinvertebrate communities (Battin et al., 2008). Backwater and scour pools, overhead cover, and organic substrate associated with logjams provide important habitat for aquatic organisms (Herdrich et al., 2018;Richmond & Fausch, 1995;Stewart et al., 2012) and logjams in abandoned channels that have accreted to the floodplain provide habitat for terrestrial organisms (

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“…The NFM woody dams in the upper River Cover catchment resulted in pool formation in some study reaches and accumulation of finer sediments in others. Previous research has suggested that the diversity of channel units (Hilderbrand, Lemly, Dolloff, & Harpster, 1997; Stewart, Bhattarai, Mullen, Metcalf, & Reátegui‐Zirena, 2012) and sediment facies (Doeg, Marchant, Douglas, & Lake, 1989; Mathers, Rice, & Wood, 2017) can contribute to increases in local biodiversity. Further studies are necessary to investigate if this increased in‐stream habitat diversity has indeed led to the presence of more diverse ecosystems.…”

Section: Discussionmentioning

confidence: 99%

Geomorphic effects of natural flood management woody dams in upland streams

Leeuwen

Klaar

et al. 2022

River Research & Apps

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One popular Natural Flood Management (NFM) technique involves the construction of channel-spanning woody dams in low-order streams that maintain a clearance height above base flows. While extensive research has examined the geomorphic effects of natural wood accumulations, little has been documented of NFM woody dams, which are structurally distinct from natural accumulations and may produce different patterns of erosion and deposition. This consideration is crucial because changes in physical habitat characteristics have implications for flood management objectives as well as ecosystem structure and functioning. This study adopted a Before-After Control-Impact (BACI) design to assess the geomorphic effects of NFM woody dams in the upper River Cover catchment, United Kingdom. One baseline survey prior to and three monitoring surveys up to 2 years following dam construction were conducted. Structure-from-Motion (SfM) photogrammetry was employed to capture topographic change, supplemented by bathymetric surveys.Results highlight that where the dams remained secure in place, they promoted instream habitat diversity by creating underflow pools. Sediment storage was observed only where the dams had clearance heights <0.3 m from the stream bed.Additionally, the dams commonly led to bank erosion, likely enhanced by inherent bank instability in the study catchment as observed along the control reaches. However, volumes of sediments eroded and deposited were not statistically different between the control and woody dam reaches. Longer monitoring is required to determine whether these effects on channel morphology and habitat diversity will persist, amplify, or diminish over time, and to better understand the longevity of NFM woody dams.

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Characterization of large wood and its relationship to pool formation and macroinvertebrate metrics in southeastern coastal plain streams, USA

Cited by 12 publications

References 36 publications

Serial discontinuity in naturally alternating forest and floodplain habitats of a Michigan (USA) stream based on physicochemistry, benthic metabolism, and organismal assemblages

Serial discontinuity in naturally alternating forest and floodplain habitats of a Michigan (USA) stream based on physicochemistry, benthic metabolism, and organismal assemblages

All Logjams Are Not Created Equal

Geomorphic effects of natural flood management woody dams in upland streams

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