NERL Research Abstract Relationships between Macroinvertebrates, Periphyton Assemblages, and Chemical and Physical Stressors in the Mid-Atlantic Streams


NERL Research Abstract

EPA's National Exposure Research Laboratory
GPRA Goal 8 - Sound Science
APM # 632

Significant Research Findings

Relationships between Macroinvertebrates,
Periphyton Assemblages, and Chemical and Physical
Stressors in the Mid-Atlantic Streams

Purpose	Wildlife living in streams are both a valued resource and an indicator of stream

quality. The relationships between chemical and physical stressors and how
they affect wildlife living in streams were developed to serve several functions.
The information was used to develop general indicators of stream condition
based on the invertebrates and algae living on the stream bottom. These are
important measures that are used to determine if streams meet designated uses
as required by the Clean Water Act. The information was also used to
determine intensities of stressors that result in damage to stream ecosystems.
These relationships can be used along with other lines of evidence to identify
the likely causes of ecological impairment for listing under section 303(d) of
the Clean Water Act, a required step in the calculation of total maximum daily
loads (TMDLs).

Research Periphyton were collected from 233 stream site-visits (49 in 1993, 56 in 1994,
Approach and 128 in 1995) throughout the Mid-Appalachian region. Periphyton index
were identified to species and analyzed by metrics, including 1) algal genera
richness, 2) the relative abundances of diatoms, Cyano-bacteria, dominant
diatom genus, acidophilic diatoms, eutraphentic diatoms, and motile diatoms,
3) chlorophyll and biomass (ash-free dry mass) standing crops, and 4) alkaline
phosphatase activity. Thirty-seven diatom genera and 38 non-diatom genera
were collected. The relative richness and relative abundance (RA) of these
genera were regressed against chemical and physical attributes of the collecting
locations.

Macroinvertebrate samples were collected from 407 stream site-visits
throughout the Mid-Appalachian region during 1993-1995. These samples
were identified to species and used to develop a stream benthos integrity index
(SBII) based on metrics that represented population, community, and pollution
tolerance measures. As part of the development process, forty

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macroinvertebrate metrics were evaluated for responses to physical habitat and
chemical indicators of catchment stream disturbance.

Major Ten periphyton metrics were correlated with 27 chemical, 12 physical habitat,

Findings and an(j 3 landscape variables. Component metrics were significantly correlated
Significance severa] chemical, physical habitat, and landscape variables. Canonical

correlation analysis revealed significant correlations between the 10 metrics and
4 significant environmental gradients related to general human disturbances
(stream acidity, stream substrate composition, and stream and riparian habitat).

Thirty-five potential stressors, including variables for water chemistry, RBP
habitat, and watershed characteristics were used in the evaluation of
macroinvertebrate metrics. Over half of the forty metrics evaluated were
correlated with one or more stressor variables. Numbers and percentages of
Plecoptera taxa, EPT taxa, and intolerant taxa, HBI, and percentages of tolerant
taxa, chironomid taxa and Ephemeroptera individuals were all significantly
correlated with several chemistry variables. Number and percentage of
Plecoptera taxa, percentages of intolerant taxa, tolerant taxa, EPT taxa, and
chironomid taxa, and the HBI were all also significantly correlated with most of
the physical habitat measures and watershed characteristics. Only percent
predator individuals and percent Megaloptera taxa showed no significant
correlations with any of the watershed, habitat, or chemistry variables.

Research Preparation of this manuscript was a joint effort of the National Exposure
Collaboration Research Laboratory in Cincinnati, OH, and the National Health and
Publications Environmental Effects Laboratory in Corvallis, OR, the Department of Biology,
University of Louisville, EPA Region HI, and states in Regions II, in and IV.

Hill, B.H., Herlihy, A.T., Kaufmann, P.R., Stevenson, R.J., McCormick, F.H., Johnson, C.B.

Technical Support Document for the Use of Periphyton Assemblage Data in an Index
of Biotic Integrity. U.S. Environmental Protection Agency, Cincinnati, OH. 2000.

Pan, Y., Stevenson, R.J., Hill, B.H., Herlihy, A.T., Collins, G.B. Using diatoms as indicators of
ecological conditions in lotic systems: a regional assessment. Journal of the North
American Benthological Society 15: 481-495, 1996.

Pan, Y., Stevenson, R.J., Hill, B.H., Kaufmann, P.R., Herlihy, A.T. Spatial patterns and

ecological determinants of benthic algal assemblages in Mid-Atlantic streams, USA.
Journal of Phycology 35: 460-468, 1999.

Klemm, D.J., Blocksom, K., Thoeny, W.T., Fulk, F.A., Herlihy, A.T., Kaufmann, P.R.,
Cormier, S.M. A Macroinvertebrate Stream Benthos Integrity Index (SBII) for
Bioassesssment of Streams in the Mid-Atlantic Highlands Region. Technical support
document. 2000.

Klemm, D.J., Blocksom, K., Thoeny, W.T., Fulk, F.A., Herlihy, A.T., Kaufmann, P.R.,
Cormier, S.M. Macroinvertebrate Sream Benthos Integrity Index (SBII) for
bioassesssment of streams in the mid-Atlantic highlands region. Journal of the North
American Benthological Society. Submitted.

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The survey design, technical reports, and journal articles were reviewed and
approved in accordance with Office of Research and Development's scientific
peer review procedures.

Future	Similar research will be performed using data collected from deep rivers.

Research Future work will also develop a method to classify wadeable streams so that
managers can separately evaluate natural and man-made influences on biota.

Questions and inquiries concerning the relationships between stressors and
biological measurements should be directed to Dr. Donald Klemm for benthic
macroinvertebrates, Dr. Brian Hill for periphyton, and Florence Fulk for
statistical analyses.

Florence Fulk

U.S. Environmental Protection Agency
National Exposure Research Laboratory
26 W. Martin Luther King Dr.
Cincinnati, OH 45268
Phone: (513)569-7379
E-mail: fulk.florence@epa.gov

Brian Hill

U.S. Environmental Protection Agency
National Exposure Research Laboratory
26 W. Martin Luther King Dr.
Cincinnati, OH 45268
Phone: (513)569-7077
E-mail: hill.brian@epa.gov

Donald Klemm

U.S. Environmental Protection Agency
National Exposure Research Laboratory
26 W. Martin Luther King Dr.
Cincinnati, OH 45268
Phone: (513)569-7090
E-mail: klemm.donald@epa.gov

Federal funding for this research was administered under EPA on-site level of
effort contract # CR 68C60019 with SoBran, Inc. and through a cooperative
agreement with Oregon State University (CR821738).

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