Evaluating the Effects of Cheatgrass on Western Burrowing Owls

Draughon, Kaylee R.

21 June 2024

There has been a global decline of specialist species observed in recent decades due to the impacts of climate change, invasive species, and habitat loss. Habitat loss and degradation may lead to a mismatch between habitat attractiveness and actual quality, otherwise known as an ecological trap. Ecological traps occur when an organism is constrained by its evolutionary past to select for cues that no longer accurately predict habitat quality. Specialist species are more susceptible to ecological traps due to greater reliance on and fidelity to historic sites and resources. The burrowing owl (Athene cunicularia), a specialist bird species adapted to open ecosystems, has declined throughout its extent. Anthropogenic activity has drastically and rapidly altered burrowing owl native habitat, exposing their habitat to disturbances such as cheatgrass (Bromus tectorum) invasion. The presence of cheatgrass is known to impact the biota of a region and understanding those impacts is becoming increasingly important. The purpose of this study was to quantify the impact of cheatgrass on burrowing owl populations. By assessing how cheatgrass influences the resource selection, nesting success, and food habits of burrowing owls, we provided information that can be utilized to make more informed decisions on how to conserve burrowing owls and their critical nesting habitat. In addition, this information can provide insight into the risk of ecological traps occurring to all specialist species experiencing degradation of their native habitat.

ecological trap

evolutionary trap

burrowing owls

burrowing owl

Athene cunicularia

specialist

specialist species

cheatgrass

Bromus tectorum

invasive species

resource selection

food habits

prey delivery

predation

predation risk

nesting

nesting success

reproduction

population ecology

Life Sciences

<b>MONITORING CRYPTIC MAMMALIAN SPECIES IN INDIANA USING COMMUNITY-INFORMED MODELING AND ENCLOSED CAMERA TRAPPING</b>

Carsten L White (18422673)

23 April 2024

<p dir="ltr">Mammalian mesocarnivores contribute greatly to a proper functioning ecosystem by exerting top-down population control on prey species. While many of these species can be legally trapped or hunted in Indiana, given their responsibilities in the ecosystem, continuous monitoring of Gray fox (Urocyon cinereoargenteus) and Long-tailed weasel (Neogale frenata) by researchers is important to identify potential signs of decline and produce specific management plans. Both U. cinereoargenteus and N. frenata populations are suspected to be declining based on reduced frequencies of observations and harvest. However, each species displays cryptic behaviors that can make observation and effective surveying difficult, which may make the development of accurate assessments of population health unfeasible. To enable better monitoring of populations of these species, I developed a model for potential U. cinereoargenteus habitat and build upon camera trapping survey methods for N. frenata in this project. I used community surveying tools in a presence-only software (e.g., MaxEnt) to develop a consensus model for U. cinereoargenteus potential habitat. I identified five landscape-based covariates (distance to mixed and evergreen forest, distance to low urban cover, distance to shrub/scrub cover, and percent total forest cover per km2 ) that contributed the greatest to predicting the presence of the species. The top models in my project indicated a positive relationship between predicted U. cinereoargenteus presence and forested land cover. Additionally, predicted presence was high when the distance to low urban and shrub/scrub cover was low. In the Southern portion of Indiana predicted areas of presence occurred where larger forest patches exist. This differed from the Central and Northern portions of the state where smaller fragmented forest patches exist. In these areas, predicted areas of presence predominantly occurred near shrub/scrub or low urban cover. These findings will allow researchers to target specific areas for effective surveying and develop species conservation strategies. I also evaluated the ability of three enclosed camera trapping systems (AHDriFT system, Mostela system, and MoHDriFT system) to detect N. frenata. These camera systems have been designed to detect N. frenata and potential prey items, doing so successfully in past studies. I deployed trapping systems in three sites throughout Northeast Indiana from February to November 2023. Camera systems collected data during the project period during unbaited and baited (using sardines) survey periods. During my project, I observed three unique detections of N. frenata, all 9 of which were in the AHDriFT system during unbaited survey periods (P = 0.99; Z = -0.005). During these survey periods when N. frenata were detected, the AHDriFT system accounted for greater prey visitation and prey species abundance than the other two trapping systems (P < 0.01; F = 12). The ability to attract large amounts of prey species while successfully detecting N. frenata in this project may point to the AHDriFT system as the best camara trapping system suited for monitoring this cryptic species. The results from my project provide researchers and state agencies with input for monitoring these two cryptic species. With both species in suspected declines, the research conducted in the two chapters can contribute to portions of future species management plans. By targeting specific areas with predicted suitable habitat for U. cinereoargenteus, agencies can better allocate funds and conduct more extensive species research in Indiana. Likewise, by deploying the AHDriFT system, researchers in Indiana can cost-effectively monitor, not only N. frenata populations, but also small mammal and herp communities with ease. The research in this project provides researchers and state agencies in Indiana with new tools and insights in monitoring these cryptic species that are critical mesocarnivores in the state’s ecosystem.</p>

Population ecology

Terrestrial ecology

Ecology not elsewhere classified

Camera trapping

Maximum entropy

AHDriFT system

Mostela

Species distribution model

Community observations

Aplikace matematických znalostí při výuce biologie

STUDENÁ, Lucie

January 2018

The Theses deals with applications of mathematical knowledge in teaching biology and it is divided into four chapters. Each chapter is dedicated to another application: 1. Application of conditional probability in medical diagnostics, 2. Application of exponential function in population ecology, 3. Application of logic functions in mathematical modelation of neuron and 4. Aplication of binomial theorem and binomial distribution in genetics. Each application contains solved problems, a worksheet for students and a solution for each worksheet. Two application (1. and 2.) have been tested in teaching and as an assessment of my lessons students filled questionnaires. Results of these questionnaires are processed in the end of these chapters. This Thesis can be used in teaching or self-studying.

A Longitudinal Examination of How Hospital Provision of Home Health Services Changed after the Implementation of the Balanced Budget Act of 1997: Does Ownership Matter?

Chou, Tiang-Hong

01 January 2009

By using a natural experiment approach and longitudinal national hospital data, this study sheds light on the objective functions of hospitals with different ownership forms by comparing their relative reductions in HH provision after the implementation of the BBA. The empirical findings reveal that for-profit hospitals behave differently as compared to public and private nonprofit hospitals, due to their different operational objectives. While the response of for-profit hospitals is consistent with the profit-maximizer model, both public and private nonprofit ownership types behave consistently in accordance with the model of two-good producers whose objective is to maximize market outputs for meeting the health care needs of the community, given the break-even requirement. This finding provides support for the tax exemption the United States government has granted private nonprofit hospitals. Although the response patterns of the nonprofit ownership types are in general similar, this study found that, contrary to expectation, religious hospitals were more likely than secular nonprofit hospitals to have reduced HH provision after the BBA. Further studies are needed to explore the difference in operational behaviors between these two ownership types. Built on previous related studies and applying a more comprehensive set of independent and control variables with improved data sources, this study is able to examine the effects of certain organizational and market factors on hospital offering of HH care pre-BBA and the change in the provision of HH care in the six years following the implementation of the BBA. Hospital proportion of Medicare patients, hospital size, total profit margin, case mix index, elderly density in the market are found to be positive determinants of a hospital’s likelihood of offering HH care. However, these organizational and market factors, in general, play a non-significant role in influencing hospitals’ changes in HH care provision after the implementation of the BBA. In the study, explanations and implications of these finding are discussed. Finally, potential limitations to this study and opportunities for future research are addressed.

Hospital Ownership

Religious hospital

Secular Nonprofit Hospital

Objective Function

Home Health Care

Balanced Budget Act of 1997

Multi-theoretical Framework

Resource Dependence Theory

Transaction Cost Economics

Institutional Theory

Population Ecology Theory

Weisbrod's Nonprofit Model

Policy Analysis

Health and Medical Administration

Medicine and Health Sciences

Applied ecology of the Tasmanian lacewing Micromus tasmaniae Walker (Neuroptera : Hemerodiidae)

Leathwick, D. M.

January 1989

The Tasmanian lacewing (Micromus tasmaniae Walker) is one of the most common aphid predators occurring in lucerne crops in New Zealand. A comparison of sampling techniques, and the output from a simulation model, suggest that the abundance of this lacewing may have been significantly underestimated in the past. Although the occurrence of aphid predators was erratic M. tasmaniae occurred more often and in far greater numbers (up to 100 m⁻²) than any other predator species. A simulation model for lacewing development in the field indicated that the large adult populations which occurred could be accounted for on the basis of reproductive recruitment. Independent evidence that immigration was not involved in the occurrence of these large populations was gathered using directional flight traps around the field perimeter. The major factors influencing lacewing population dynamics were the availability of aphid prey and, in the autumn, parasitism. Otherwise, survival of all life-histoty stages was high with no evidence of egg or larval cannibalism. Several instances of high lacewing mortality were identified by the model and the lack of any obvious cause for these highlights inadequacies in the understanding of lacewing bionomics. The model, which used a linear relationship (day-degrees) between development and temperature, was incapable of accurately predicting lacewing emergence under field temperatures which fluctuated outside the linear region of the development rate curve. Temperature thresholds and thermal requirements estimated under fluctuating temperatures similar to those in the field produced almost identical model output to those estimated under constant temperatures in the laboratory. Prey species was capable of influencing the rate of lacewing development. M. tasmaniae has the attributes necessary to produce large populations in the short time available between lucerne harvests. The asymptote of the functional response curve is low but the efficiency at converting aphids to eggs is high. Therefore, the lacewing is able to attain maximun reproductive output at low prey densities. A low temperature threshold for development (4-5° C), rapid development and short preoviposition period results in a short generation time (49 days at 15° C). Long adult life, high fecundity and the absence of any form of estivation or diapause, results in complete overlap of generations and multiple generations per year. M. tasmaniae's role as an aphid predator is restricted by its low appetite for prey and by the lucerne management regime currently practiced in New Zealand. Because it consumes relatively few aphids per day the lacewing's ability to destroy large aphid populations is limited. However, this may be offset by its ability to attack aphids early in the aphid population growth phase, and by the large numbers of lacewings which may occur. Under the present lucerne management schemes the large lacewing populations which do occur are forced out of the fields, or die, following harvest. A number of management options for increasing the lacewings impact as an aphid predator are briefly discussed.

Tasmanian lacewing

Micromus tasmaniae Walker

lacewings

lucerne

aphid predators

population dynamics

pest management

Hemerobiidae

Host-parasite coevolution in New Zealand: how has Odontacarus, a mite with a free-living stage in its life-cycle, coevolved with its skink host?

Vargas, Mariana L.

January 2006

The effect of a free-living stage in host-parasite coevolution: a skink mite phylogenetic study in New Zealand. During the last decade, phylogenetic trees have even been used to compare ecologically related taxa such as parasites and their hosts, and are used to determine their level of coevolution or reciprocal adaptation in time. Diverse coevolutionary events have been detected for this ecological association, where generally the parasite has been regarded as one that feeds exclusively on the host and is likely to cospeciate with it. A different coevolutionary pattern might occur when the parasite has a free-living stage in its life cycle, in which the parasite may have the opportunity to abandon its host and successfully colonise a new species (host-switching) making cospeciation less likely. Many New Zealand skinks are infested with a parasitic mite, Odontacarus sp. (Prostigmata: Leeuwenhoekiidae), which becomes free-living as an adult. The genetic variation of these mites found on four hosts was analyzed for host- parasite coevolutionary events. The hosts were the McCann’s skink and the common skink in coastal Birdling Flat, Canterbury, plus these species and the Grand and Otago skinks in Macraes Flat, Central Otago, South Island, New Zealand. The genetic variation of fast evolving nuclear Internal Transcribed Spacers 2 and mitochondrial Cytochrome c Oxidase I in Odontacarus mites found on these hosts was determined by PCR and DNA sequencing and phylogenetic trees were built using the computer programs PAUP*4 and MrBayes 3. The results show that mite haplotypes only had a significant geographical division and no host-related differences. In Birdling Flat, the COI haplotypes were represented in two groups that infested both regional hosts and had 5.7 % divergence. The same individual mites belonged to a single ITS 2 haplotype, thus indicating a historical geographical division between two populations that now interbreed successfully. The Macraes Flat mites were divided into two COI haplotypes with 2.4% divergence and internal nodes, which showed greater genetic variability than the Birdling Flat populations. The Macraes Flat mites formed two ITS 2 haplotypes with 6% divergence. This greater geographical structure of the Otago mites is probably due to the older age of the mainland area compared to the recently exposed coastal locality of Birdling Flat. The COI haplotypes from the two different regions had a mean distance of 15.5%, with an earlier divergence time than that known for the hosts. For both genes, the haplotypes from different regions had 100% bootstrap support and the parasite showed no host specificity. Mites of the different COI and ITS haplotypes were found on most of the host species that were sampled in Canterbury and Otago. The results of this study suggest that a free-living stage in a parasite’s life cycle can favour coevolutionary events such as inertia (failure to speciate) and host-switching, probably as a result of resource-tracking of the parasite. NB: Electronic files contained on CD to accompany print copy are not included with this version of the thesis.

biogeography

co-evolution

co-phylogenies

Cytochrome c Oxidase I

free-living

host-switching

inertia

Internal Transcribed Spacer 2

lizard

mite

New Zealand

Odontacarus

Oligosoma

parasite

phylogenetic

skink

Foraging strategies of Southern Royal Albatrosses, Diomedea epomophora, Campbell Island during incubation

Troup, Christina

January 2004

Among the species of Diomedea albatrosses, diverse foraging strategies during breeding have been described, indicating species differences in foraging ecology and behaviour. Foraging strategies of Southern Royal Albatrosses, Diomedea epomophora (SRA) breeding on Campbell Island were studied in January – early February 1999 during the latter half of incubation. Movements and activity of ten birds were monitored using satellite transmitters and wet-dry activity recorders. Three birds from a pilot tracking study in February 1997 were also included in some analyses. Foraging strategies, zones used, factors influencing the duration of foraging trips, and the influence of wind conditions were investigated. Foraging activity took place at sites with bathymetric characteristics associated with high productivity: outer shelf and shelf-break zones, with a concentration of activity on a shelf contour south of the Snares Islands. This is in contrast to Wandering (D. exulans) and Gibson’s (D. gibsoni) albatrosses, typically deep oceanic foragers, but is similar to Northern Royal Albatross (D. sanfordi). The maximum distance of foraging trips from the colony was 1250 kilometres (mean 584 +351(SD)). This was closer than for incubating Wandering and Gibson’s Albatrosses but more distant than for Northern Royal Albatross from the Otago Peninsula. The mean duration of 77 foraging trips from 52 nests was 10.11 days for females and 8.76 for males (ns). Foraging trips became shorter as incubation progressed. Foraging trips were shorter, but not significantly so, when the median wind speed throughout the foraging trip was higher. No significant relationship was found between bird mass and duration of foraging trips. The mean cumulative distance flown by the ten birds tracked in 1999 was 4262 km + 1318 (SD). Eight of the ten SRA employed a ‘commute, forage, commute’ foraging strategy, and the other two alternated short bouts of commuting and foraging. Commuting phases were characterised by rapid directional flight with a straight-line distance (range) of 180 km to 800 km between positions 24 hours apart. Foraging phases were characterised by a range of less than 180 km per 24 hour interval and frequent tight turns. Displacement rate between successive uplinks was significantly higher during commuting phases (28.6 kph + 1.93 SE) than foraging phases (15.1 kph + 1.4 SE). Wind strength and direction influenced the timing of the return commute to the colony. SRA covered greater distances at more favourable wind angles relative to flight track (broad reach and close reach) than in head, tail or direct side winds. Birds of low mass (< 8kg) made fewer landings in winds above 40 kph than in lighter winds, whereas heavier birds had a similar level of landing activity across all wind speed bands. One bird was delayed for several days by light winds, and another flew off course during strong winds. Two birds exploited the same window of wind conditions to return to the colony, each flying a similar course in both timing and route. These results define the foraging strategies of SRA during incubation, and demonstrate the influence of wind conditions and other factors on the overall duration of foraging trips and on the timing of commuting and foraging phases.

Diomedea epomophora

Southern Royal Albatross

foraging strategies

foraging behaviour

incubation

body weight

satellite tracking

wind

foraging trip duration

albatross

Campbell Island

Wirkung von Umweltchemikalien auf Gammarus fossarum - Populationsexperimente und individuenbasiertes Reproduktionsmodell

Schmidt, Jens

12 June 2004

Das Schutzziel in der Ökotoxikologie ist die Population. Un­ter­suchungen zur Wirkung von subletalen Konzentrationen einer Umweltchemikalie auf Populationsebene, zum Beispiel mit künst­lichen Fließgewässersystemen (Mikrokosmen) können aussagekräftigere Beiträge zur ökotoxikologischen Bewertung einer Umweltchemikalie liefern. Außerdem können bei solchen Untersuchungen mögliche indirekte Effekte erfaßt werden. Über die Reaktion von Fließgewässer-Biozönosen gegenüber Um­welt­chemikalien ist relativ wenig bekannt. Die überwiegende Zahl der Untersuchungen zur Abschätzung des Ge­fähr­dungs­po­tentials von Umweltchemikalien wurde mit Testsystemen für Lebensgemeinschaften in stehenden Gewässern untersucht. Die Übertragbarkeit der Ergebnisse dieser Tests auf Fließgewässer-Lebensgemeinschaften ist meist nicht gegeben. Daher ist es notwendig Testsysteme zu etablieren, mit denen die Wirkung von Umweltchemikalien auf Fließgewässer-Le­bens­ge­mein­schaf­ten untersucht werden kann. In einem Gewächshaus wurden fünf Fließrinnen etabliert, mit denen die physikalisch-chemischen Bedingungen in einem Bach simuliert werden können. Im Ge­gensatz zu Untersuchungen einer komplexen Le­bens­ge­mein­schaft mit hoher Variabilität, wie sie sich beispielsweise durch das Einbringen von na­tür­lich­em Sediment aus Fließgewässern einstellt, wurde in diesen Experimenten die Wirkung von Che­mikalien auf eine einfache Lebensgemeinschaft untersucht. Die Le­bens­ge­mein­schaft in den Fließrinnen bestand deshalb aus wenigen, aus­ge­wählten Arten. Untersucht wurden die Kon­zen­tra­tionen 0,6, 6, 60 und 600 µg/l (Terbutryn) und 0,05, 0,5, 5 und 50 µg/l (Fenoxycarb). Gegenstand der vorliegenden Arbeit waren die Untersuchungen mit Gammarus fossarum. In einem akuten Toxizitätstest wurde die LC50 von Terbutryn für adulte und juvenile Gammariden ermittelt. In den Fließ­rin­nen­ex­perimenten mit Terbutryn und Fenoxycarb wurden po­pu­la­tions­relevante Pa­ra­meter der Gammaridenpopulationen untersucht. Ob und in welchem Um­fang sich Effekte, die mit den Stan­dard­tests gemessen wurden, auf bestimmte öko­toxi­ko­lo­gi­sche End­punkte der Population auswirken, kann nicht immer unmittelbar abgeleitet werden. Eine Möglichkeit wäre die aufwendige Durchführung von Po­pu­la­tionsexperimenten mit einfachen oder komplexeren Mo­dell­öko­systemen über eine lange Zeit. Eine andere Möglichkeit ist die Nutzung mathematischer Modelle zur Beschreibung der Populationsdynamik. Das begleitend zu den Untersuchungen entwickelte individuenbasierte Re­pro­duk­tions­modell GamMod bildet die Populationsdynamik einer ab­ge­schlos­senen Population von Gammarus fossarum in künstlichen Fließgewässersystemen ab. Es wird die Struktur und Dy­na­mik des realen Systems (Populationsdynamik) unter Ein­beziehung der Kenntnisse des Reproduktionszyklus modelliert. Mo­dell­szenarien sollen Aus­sagen über den Einfluß der Än­der­ung einer Variablen bezüglich der Populationsdynamik liefern.

Crustacea (Krebstiere)

Fenoxycarb

Fließgewässer-Mikrokosmos-Studie

Gammarus fossarum

IBM

Individuenbasierte Modelle

Künstliche Fließgewässersysteme

Mathematische Analyse

Populationsökologie

Reproduktionsmodell

Terbutryn

Theoretische Ökologie

T

Crustacea

ecotoxicology

Gammarus fossarum

IBM

artificial indoor streams

fenoxycarb

individual based models

population ecology

reproduction model

stream microcosm study

terbutryn

theoretical ecology

toxicodynamic

ddc:570

rvk:WI 2500

Fenoxycarb

Gammarus fossarum

Künstliche Fließgewässer

Mathematisches Modell

Populationsdynamik

Populationsökologie

Reproduktionstoxikologie

Terbutryn

Toxizitätstest

Plant-herbivore interactions across an alpine meadow gradient

Illerbrun, Kurt K

Unknown Date

No description available.

Plant-herbivore interactions

Population ecology

Alpine ecology

Parnassius smintheus

Butterfly

Habitat quality

Host plant

Climate change

Alpine treeline

Rising treeline

Species-area relationship

Alpine meadow

Lepidoptera

Kananaskis

Host finding

Host orientation

Oviposition

Herbivore

Herbivory

Conservation

Sedum lanceolatum

Crassulaceae

Adult resources

Larval resources

Adult-larva dichotomy

Habitat fragmentation

Habitat loss

Ecology

The comparative biology of Fluttering shearwater and Hutton's shearwater and their relationship to other shearwater species

Wragg, Graham

January 1985

The discovery and taxonomic history of fluttering shearwater (Puffinus gavia (Forster) and Hutton's shearwater (Puffinus huttoni Mathews) are reviewed. Taxonomic theory, where appropriate to this thesis, is discussed. The external morphology of P. gavia and P. huttoni is compared. No single external measurement or plumage character separates more than 60% of birds examined. The best system of identification is to compare the ratio of different body parts within an individual bird. The distribution of P. gavia and P. huttoni is compared. Hutton's shearwater feeds further out to sea and it is believed to be a migrant species wintering in north west Australian waters. The fluttering shearwater is believed to be a semi-migrant species with only the juveniles spending time in south east Australia. The red cell enzymes of P. gavia, P. huttoni and P. griseus are compared. There are differences in two esterase loci between gavia and huttoni, while P. griseus is more distantly related. Nei's genetic identity values are calculated. The systematic value of electrophoretic data is discussed. The relationship of an undescribed subfossil shearwater to P. gavia and P. huttoni is discussed. An outgroup analysis to other shearwater species is carried out according to phylogenetic (cladistic) theory. The subfossil shearwater is most closely related to the fluttering shearwater, and these two form a sister group to Hutton's shearwater. These three species are a sister group of P. opisthomelas. The relationship between the many P. assimilis subspecies, the black-backed Manx shearwaters, and the gavia, huttoni and opisthomelas group was not resolved. Puffinus nativitatis is more closely related to the Manx and the little shearwaters than to the P. griseus, P. tenuirostris group.

Procellariidae

Puffinus phylogenetics

Puffinus gavia

Puffinus huttoni

undescribed subfossil shearwater

comparative biology

comparative osteology

red cell enzymes

Nei's genetic identities

Hutton's shearwater

Fluttering shearwater