Using Machine Learning to predict water table levels in a wet prairie in Northwest Ohio

More, Priyanka Ramesh

26 November 2018

No description available.

Geology

Hydrology

Artificial Neural Network

Hydrological modeling

Shallow groundwater modeling

Wet prairie, Oak Openings

Vegetation sensitivity during the mid-Holocene warming in western Ohio

Kopera, Kristin

03 June 2019

No description available.

Ecology

Environmental Science

mid-Holocene

Holocene

hypsithermal

Prairie Peninsula

Crystal Lake

The effect of anthropogenic habitat modification on insect-mediated ecosystem services

Maran, Audrey Marie

06 August 2020

No description available.

Biology

Ecology

arthropod

nutrient cycling

prairie

urban

agriculture

ecology

predation

predator

carbon

nitrogen

phosphorus

detritivore

insect

Examining tyrosine hydroxylase positive neurons and their relationship with social and genetic monogamy in semi-natural populations of prairie voles Microtus ochrogaster

Lichter, James Bernard

31 July 2020

No description available.

Biology

Neurosciences

THE PROLOGUE TO MANAGEMENT: THE EFFECTS OF HISTORICAL ANTHROPOGENIC ACTIVITIES ON FOREST ECOSYSTEMS AND CURRENT MANAGEMENT OPPORTUNITIES IN SOUTHWESTERN ILLINOIS

Lovseth, John Timothy

01 December 2018

Forest disturbance occurs on a wide gradient of selectiveness and creates new growth opportunities for adapted species. Across the spectrum of disturbance, anthropogenic disturbance influences community assembly in the Midwest more than other mechanisms but is its role in shaping and maintaining ecosystems is inadequately considered in most discussions on the historic range of variability (HRV). Forest resiliency is threatened by unprecedented agents of ecosystem change such as invasive species and reduced regeneration potential of native species. Historic anthropogenic disturbance largely resulted in forest conditions which commonly contained high value attributes like heterogeneity across habitat types and landscape diversity, yet also produced forests of undesirable traits due to high grading for timber and overgrazing by domesticated stock. In order to maintain historical representative forests and improve the degraded forests, active forest management is necessary to continue historic disturbance patterns and combat new threats. Forest transition theory is used here to describe the impacts of human settlement and development activities on forest ecosystems across the Middle Mississippi River Valley. To date, researchers have identified the need for information related to changes of forest attributes such as species composition and stand structure, improved descriptions of short- and medium-term dynamics within the context of the long-term transition, and the integration of biophysical drivers of forest change through time. In Midwestern U.S.A., forest dynamics were influenced by frequent, low intensity disturbance events that mediate forest composition and stand structure by selecting for disturbance regimes that create oak woodland and interspersed prairies and meadows. The onset of Euro-American settlement was accompanied by detailed land-use records with information related to forest attributes, agricultural activities, and parcel ownership patterns. We aggregated multiple sources of historic forest conditions into a geodatabase in order to document changes over the past 200 years in Elsah Township, Illinois, where the pre-settlement (1820) forest, once dominated by oak and hickory species, has largely shifted to a maple dominated system with a declining oak-hickory component, heavily influenced by an invasive shrub species, bush honeysuckle. Using on ordinary kriging interpolation, forest density was estimated at 8.7 stems per acre on average with a mean basal area of 14.6 square feet per acre prior to settlement. Conservation practices of the early 1900s, including fire suppression and erosion control resulted in changes to forest structure with density increases to 127 trees per acre with a basal area of 175.8 square feet per acre. The high degree of topographic variability near the Mississippi River influenced forest cover changes as slopes with low angles were the first to be converted from forest cover to other land uses (circa 1850). Forest re-initiation occurred in areas with steeper slope due to a lack of human activities. Forest cover declined to the lowest point in 1927 and has been rebounding steadily throughout this century. Of the original 15,252 forested acres, 11.6% remained covered throughout the past 200 years and coincided with slopes with an average of 39.1 degrees. These data can provide a spatially explicit and historically accurate tool to guide land management decisions including restoration treatment, disturbance regime management, and land use preservation activities in similarly heterogeneous environments. Forest communities along the bluffs of the Mississippi River differ in species composition and stand structure associated with specific topographic positions of floodplain, transition talus slope, bluff top, and upland. In order to assess current stand characteristics and ecosystem trajectory, we measured all woody stems in 316 fixed radius plots (79 plots per topographic position) with a plot area of 25 m2. Alpha (defined as within system diversity) and Beta (defined as between system diversity) diversity and diameter distributions were determined for seedling, shrub layer, and overstory stems. Stem density increased from 21.4 stems ha-1 in 1820 to 613 stems ha-1 in 1936 followed by reduction to 314 stems ha-1 in 2017. Average stand diameter decreased from 40.9 cm in 1820 to 25.3 cm in 2017 (for upland stems greater than 7.5 cm) while basal area increased from 3.3 m2 ha-1 in 1820 to 40.4 m2 ha-1 in 2017. Alpha diversity was highest in the upland overstory and in the river island shrub layer. Beta diversity in the overstory was highest (0.67) between the bluff and the upland while lowest (0.08) between the bluff and the river island. Importantly, mesophytic species are no longer restricted to watercourses and valleys as reported in historical accounts and confirmed by the spatial analysis of original witness tree records. Currently, bush honeysuckle, an invasive species, dominates the shrub layer on most non-hydric sites of the talus slope, upland, and particularly across the bluff top where it is an indicator. Across all forest sites in the study, we found evidence of a community shift to less diversity and more mesophytic species over the past 80 years. Hill prairie vegetation on the limestone bluffs of the central Mississippi River Valley represents a significant portion of the remaining prairie, savanna, and woodland systems of the Midwest and should be appropriately managed with prescribed fire and woody stem reduction efforts. We examined the structure, composition, and temporal community patterns of the forest-prairie gradient by employing hierarchical cluster analysis and non-metric multi-dimensional scaling in combination with indicator species analysis and dendrochronological methods. Results suggest that four general community types exist across the forest-prairie gradient: Group 1 consists of the woodland community structure with significant indicator values for the density of Juniperus virginiana (indicator value 58.4, p = 0.0002), Carya glabra (45, 0.0022), Quercus stellata (23.7, 0.0424), and Lonicera maackii (74.2, 0.0002) and a high basal area (BA) of J. virgniana (21.4, 0.0276) and L. maackii (47.9, 0.0054). The first year of L. maackii presence was 1964 with the primary wave of invasion beginning around 1990. Group 2 contains bare soil coverage in the subplot (40.4, 0.0002) as the one indicator at a significant level. The species with the highest BA in Group 2 include Acer saccharum (9.08 m2 ha-1), Q. velutina (5.89 m2 ha-1), and Q. muehlenbergii (5.32 m2 ha-1). Group 3 typifies the hill prairie community with the sole indicator of grass coverage in the subplots (39.7, 0.0196). Group 4 represents the stage of forest development following the cessation of disturbance events and the trajectory advancing towards a mesophytic forest and contains 14 significant indicators.

anthropogenic disturbance

ecological restoration

forest management

hill prairie

historical ecology

oak hickory

The Efficacy of Using a Natural Soil Additive for the Establishment, Survival and Diversity of Native Prairie and Spontaneously Colonizing Plant Communities on Unirrigated Green Roofs in a Humid Subtropical Climate

Lackey, Gordon Mims

09 May 2015

Green roofs are an emerging technology promoted primarily for stormwater management but little has been published about their potential for biodiversity performance. This is the first study to explore the potential for creating prairie-like, non-succulent, native plant communities on unirrigated extensive green roofs in the southeastern United States. Ten experimental green roof platforms were used to: 1) identify native species and methods of establishment appropriate for green roof applications in the southeastern United States; 2) examine the effects of introducing natural soil into a commercially available green roof soil media mixture on the survival and establishment of native prairie species; and 3) examine the composition of early successional green roof plant communities. Eleven planted species were successfully established and 46 colonizing species were identified. It was found that the addition of native prairie soil did not significantly affect survival, overall cover, or biodiversity in terms of species richness and evenness.

cover

colonization

native soil

biodiversity

prairie community

green roofs

unirrigated

native plants

Examining the Relationship between Avifauna and Green Roofs in Mississippi's Humid-Subtropical Climate

Lamb, Sara Katherine

14 August 2015

Human settlement displaces and fragments natural habitats. Design choices in the landscape directly affect both local diversity and extinction rates. This study seeks to understand how avifauna are responding to this new technology in Mississippi.

Mississippi green roofs

humid-subtropical climate

prairie

sedum

BMP

habitat fragmentation

habitat

bird

avifauna

green roof

Analysis of the Role of the Jackson Prairie in Prehistoric/Protohistoric Settlement Patterns using Survey Data from the Bienville National Forest

Ryan, Jennifer Ivy

06 May 2017

Archaeological surveys using the subsurface testing method known as “shovel-testing” have been performed sporadically across the Bienville National Forest in central Mississippi. However; no research-oriented analysis has ever been performed for this area. The Bienville National Forest is located primarily in two physiographic regions: the Jackson Prairie and the Southern Pine Hills. These two regions are distinctly different in topography, soils, and vegetation. No settlement pattern study has been performed in the Jackson Prairie and it has been viewed as an area of low probability. Soils in this region are often heavy clays with high shrink/swell capabilities and poor drainage. In this thesis, I attempt to construct an initial analysis by looking at the duration of occupations and their placement in the landscape through time in order to determine whether the Jackson Prairie played any important role in the choice of habitation locations by prehistoric populations.

settlement patterns

Jackson Prairie

archaeology

occupation

catchment

Southern Pine Hills

Bienville National Forest

Social organization on the pioneer fringe with special reference to the Peace River area.

Younge, Eva R.

January 1933

No description available.

Sociology.

Prairie Provinces -- Social conditions.

Behavioral Alterations in Prairie Voles (Microtus ochrogaster) after Parent-Pup Separation

Yamamoto, Mihoko

01 January 2009

The prairie vole (Microtus ochrogaster), a highly social species, offers a unique opportunity to examine the effects of parent-pup separation in a biparental family system similar to humans. We hypothesized that 1) repeated separation from pups affects parental behavior and emotionality in parents, and 2) neonatal parental separation affects emotional and physiological development in pups, and thus induces altered adult parental, emotional, and social behaviors. During postnatal day (PND) 1-10, pups were removed from their parents for 0, 15, or 360 min and housed either individually or with siblings. Unhandled controls experienced only daily lid opening. Tests for parental responsiveness and emotionality were conducted on PND11 for parents and PND90-92 for their offspring. Emotionality tests included the elevated plus maze, open field, and forced swim tests. Starting at PND150, half of each litter was paired with an opposite-sex vole for 24 hours and tested for partner preference. Additionally, behavioral response to stress was measured in all animals 0, 30, or 60 min after exposure to a forced swim. Generally, the behavior of the parents and adult offspring was influenced by daily handling, the length of the separation, and presence of siblings. Parental behaviors in parents did not differ among groups, while their anxiety- and depression-like behaviors were influenced by pup separation. For the adult offspring, separation treatment altered parental behavior, emotionality, partner preference, and stress response. Our results demonstrated that parent-pup separation affects emotional and social behaviors in prairie vole parents and adult offspring.

Parental Behavior

Prairie Vole

Emotionality

Partner Preference

Stress Response

Behaviorial sciences