Conservation senior section.
Chevalier, Cary D.
LaCombe, L., and S. Carins. Department of Biological Sciences,
Central Missouri State University. Recreational Effects On Aquatic
Insect Communities, Buffalo National River, Arkansas. The Buffalo
National River became part of our national park system in 1972. Demands
on parks like this one increase each year. Even though this river is
protected by national park status, its fragile ecosystems are impacted
by recreational activities of nearly one million annual visitors to the
park. The purpose of this study was to evaluate impact of recreational
use on aquatic insect communities. Three river accesses were selected as
sampling sites from the upper, middle, and lower sections of the river.
Aquatic insects were collected using a stratified random sampling
strategy from riffle habitat. At each of these sites, four samples were
collected upstream and four samples were collected at the terminus of
the recreation access. The insects were identified to lowest taxonomic
level possible. Samples were quantitatively rated using a multi-metric
community analysis. Preliminary results will be presented.
* Maccarone, A.D., Biology Department, Friends University, and C.
H. Cope, Kansas Department of Wildlife & Parks. Recent Trends In The
Winter Population Of Canada Geese In Wichita, Kansas. We have taken a
half-day census of Canada geese (Branta canadensis) inside the Wichita
city limits every January since 1983, when we counted 1600 birds. Recent
estimates suggest that the size of the winter population of Canada Geese
continues to increase, with an estimated 18000 birds counted last
winter. Annual population growth follows a strong linear pattern
([R.sup.2] = 0.78), and closely follows population growth patterns for
both the City of Wichita and the State of Kansas (r = 0.70 in both
cases). The growth of the winter population does not appear to be
closely related to the size of the local breeding population.
Aggregations of < 30 birds accounted for 37% of all flocks, and those
of <100 birds accounted for 68% of all flocks. Canada geese were
associated with three primary habitats: grass, bodies of water, and
agricultural fields. We consider the possible implications for continued
population growth.
Metcalf, D., S. Cairns, T. Yasger, K. and K. Sullivan. Department
of Biology, Central Missouri State University and Fisheries Division,
Missouri Department of Conservation. Evaluation Of Paddlefish Spawning
Locations And Success Of Spawning Eforst On The Marais Des Cygnes River:
Year Two. Since the construction of Truman Dam, all known paddlefish
(Polydon spathula) spawning sites have been eliminated. The Marais Des
Cygnes River, which offers the greatest potential for natural
reproduction, has not been thoroughly investigated for location of
suitable spawning habitat. The Missouri Department o Conservation and
Central Missouri State University have initiated this study to assess
habitat suitability for paddlefish spawning. Four potential spawning
location, between Highway 71 and the US Fish & Wildlife Service
Marais Des Cygnes Refuge in Kansas, were sampled. Adult paddlefish were
sampled using gill nets as they migrated upstream to spawn. Paddlefish
lethyoplankton were sampled below and above the sample sites using
boat-mounted drift nets. Spawning habitat was assessed for each sample
site using modified Missouri Department of Natural Resources Stream
Habitat Assessment Procedures. Natural reproduction was observed with
the collection of larval paddlefish at some river sites. Preliminary
analysis of larval and adult abundance for years one and two will be
presented.
* Nations, M.W. and S. Cairns. Department of Biology, Central
Missouri State University. Larval Amphibian Communities Of Pertle
Springs. Amphibian population numbers have been declining over the past
several decades. The amphibian community present in an ecosystem may be
a key indicator of that systems health. Larval amphibians were sampled
in May and June in four golf course ponds and three ponds in Pertle
Springs. Dissolved oxygen, pH, turbidity, conductivity, and temperatures
were specific water parameters sampled during May and June of all seven
ponds. Dominant plant species were sampled along randomly selected
transects in one meter square quadrats around the seven ponds in late
August. Larval amphibian communities, water parameters, and dominant
plant vegetation were analyzed for correlation among the selected
parameters.
* Neerhof, L. and S. Cairns. Department of Biology, Central
Missouri State University. Eutrophication Monitoring And Management
Strategies Of Four Ponds Located In Pertle Springs Recreational Area.
Four ponds located in the Pertle Springs recreational area are a part of
Central Missouri State University (CMSU) in Warrensburg, Missouri.
Eutrophic conditions ranged from phytoplankton dominated communities to
predominately macrophyte communities. Seven sites on the four ponds were
sampled monthly from June 2002 to September 2003. Depth profiles of
dissolved oxygen, temperature, turbidity, conductivity and pH were taken
at each site. Laboratory analysis of orthophosphate, nitrate,
alkalinity, hardness, ammonia, and suspended solids were performed at
CMSU's Water Quality Laboratory. Results determined the management
strategies for each pond.
Sass, C. and * J. Rushin. Biology Department, Missouri Western
State College. A Preliminary Study Of Plants At The Lower Hamburg Bend
Conservation Area Prior To Flooding With A Reopened Chute Of The
Missouri River. The Lower Hamburg Bend Conservation Area (LHBCA)
contains approximately 3,000 acres of wetland habitat located on the
east side of the Missouri River just south of the Iowa border. As part
of a joint project of the Missouri Department of Conservation (MDC) and
the U. S. Army Corps of Engineers (COE), a chute is scheduled to be
reopened through the LHBCA to form island, sloughs, and backwater areas.
Within a 300-acre study area that will be primarily affected by the new
chute, 232 evenly-spaced permanent sampling plots and 18 randomly
located permanent sampling plots were used to collect herbaceous plants,
woody seedlings, saplings, and trees according to the Vegetation
Monitoring System (VMS) of the MDC. (All sampling was done in June and
July of 2002 and 2003.) This study describes 97 species of herbaceous
and woody plants collected from all of the study plots. It compares VMS
Importance Values of the top herbaceous species including (Solidago altissima, Setaria Faberii, A butilon Theophrasti, Polygonum
pensylvanicum, Erigeron canadensis, Helianthus annuus, Setaria gluaca
and Bromus inermis) in the entire study area. In addition, it was found
that most of the plants sampled during this preliminary survey are
introduced and/or generalist species. Slight changes in bare ground,
litter and water were due to a 2002 late winter burn and beaver dam
construction in 2003. it is expected that native wetland species will
increase as the marsh habitat expands after the river chute is reopened.
Support from the Missouri Department of Conservation.
* Wisker, D. Department of Biology, Central Missouri State
University. Genetic And Morphometric Variation In Fragmented Missouri
Populations Of The Texas Mouse Peromyscus Attwateri. Fragmented,
isolated populations are subject to loss of genetic diversity through
inbreeding and genetic drift. Loss of diversity renders these
populations susceptible to increased disease and local extinction.
Glades are isolated, open patches of habitat surrounded by hardwood
forest areas, and are found throughout Missouri. In the Missouri portion
of its range, the Texas mouse (Peromyscus attwateri) is restricted to
glade habitat fragments in the southwest corner of the state. This study
will use Amplified Fragment Length Polymorphism (AFLP) and morphometric
data to assess genetic diversity of selected glade populations and
evaluate the effects of habitat fragmentation on genetic structure.
Information gathered from this project will be of interest to
conservation biologists concerned with the viability of fragmented
populations, and evolutionary biologists interested in population
divergence
Cary D. Chevalier
Missouri Western State College
