Your search keyword '"Dolan, Rebecca W."' showing total 10 results

1. Beta diversity of urban floras among European and non-European cities

Author

La Sorte, Frank A., Aronson, Myla F. J., Williams, Nicholas S. G., Celesti, Laura, Sarel, Cilliers, Clarkson, Bruce D., Dolan, Rebecca W., Andrew, Hipp, Stefan, Klotz, Ingolf, Kuhn, Petr, Pysek, Stefan, Siebert, and Marten, Winter

Subjects

introduction pathways, extra-regional residence time, beta diversity, archaeophytes, non-native species, biological invasions, plants, agriculture, biotic homogenization, urbanization

Published

2014

2. Floristic response to urbanization: Filtering of the bioregional flora in Indianapolis, Indiana, USA.

Author

Dolan, Rebecca W., Aronson, Myla F.J., and Hipp, Andrew L.

Subjects

*URBANIZATION, *URBAN plants, *ECOLOGICAL disturbances

Abstract

PREMISE OF THE STUDY: Globally, urban plant populations are becoming increasingly important, as these plants play a vital role in ameliorating effects of ecosystem disturbance and climate change. Urban environments act as filters to bioregional flora, presenting survival challenges to spontaneous plants. Yet, because of the paucity of inventory data on plants in landscapes both before and after urbanization, few studies have directly investigated this effect of urbanization. METHODS: We used historical, contemporary, and regional plant species inventories for Indianapolis, Indiana USA to evaluate how urbanization filters the bioregional flora based on species diversity, functional traits, and phylogenetic community structure. KEY RESULTS: Approximately 60% of the current regional flora was represented in the Indianapolis flora, both historically and presently. Native species that survived over time were significantly different in growth form, life form, and dispersal and pollination modes than those that were extirpated. Phylogenetically, the historical flora represented a random sample of the regional flora, while the current urban flora represented a nonrandom sample. Both graminoid habit and abiotic pollination are significantly more phylogenetically conserved than expected. CONCLUSIONS: Our results likely reflect the shift from agricultural cover to built environment, coupled with the influence of human preference, in shaping the current urban flora of Indianapolis. Based on our analyses, the urban environment of Indianapolis does filter the bioregional species pool. To the extent that these filters are shared by other cities and operate similarly, we may see increasingly homogenized urban floras across regions, with concurrent loss of evolutionary information. [ABSTRACT FROM AUTHOR]

Published

2017

3. Documenting effects of urbanization on flora using herbarium records.

Author

Dolan, Rebecca W., Moore, Marcia E., and Stephens, Jessica D.

Subjects

*URBANIZATION, *PLANT diversity, *ECOSYSTEM services, *URBAN ecology, *HERBARIA, *PLANT populations

Abstract

As human populations increasingly live in cities, urban floras and the ecosystem services they provide are under increasing threat. Understanding the effects of urbanization on plants can help to predict future changes and identify ways to preserve biological diversity. Relatively few studies document changes through time in the flora of a focal region and those that do primarily address European floras. They often rely on contemporary spatial gradient studies as surrogates for changes with time. We compare historical species records (prior to 1940) with the current flora for Marion County, Indiana, USA, home to Indianapolis, the 13th largest city in the United States. Specimens from the Friesner Herbarium of Butler University and other vouchered records for the county provided the basis for historical records. Current records are derived from inventories of 16 sites conducted by Herbarium staff and other botanists over the past 15 years. Physiognomic group, wetland classification and nativity (native vs. non-native) were determined for each species. Fidelity to high-quality habitat was quantified using coefficients of conservatism (C-values). The last 70 years have seen a significant turnover in species presence, most notably a decrease in native plant species number (2.4 per year) and quality, with an accompanying increase in non-native plants of 1.4 per year. Loss of species has been non-random, with a disproportionate number of high-quality wetland plants lost. The signature of past land use can be seen in physiognomic changes in the composition of the flora that reflect the shift from agriculture to urban/suburban land use. Many invasive non-native shrubs now present have escaped from cultivation, highlighting the combined threats of habitat conversion and human plant preference to native flora in cities. These invasives likely present the greatest threat to remaining biodiversity. Synthesis. This study demonstrates the value well-documented historical records, such as those housed in herbaria, can have in addressing current ecological issues. [ABSTRACT FROM AUTHOR]

Published

2011

4. Capturing Genetic Variation during Ecological Restorations: An Example from Kankakee Sands in Indiana.

Author

Dolan, Rebecca W., Marr, Deborah L., and Schnabel, Andrew

Subjects

*PLANT variation, *BIOLOGICAL variation, *RESTORATION ecology, *ISOENZYMES, *GENETIC polymorphisms, *PLANT ecology, GRAND Kankakee Marsh National Wildlife Refuge (Ind. & Ill.)

Abstract

Genetic variation in populations, both natural and restored, is usually considered crucial for response to short-term environmental stresses and for long-term evolutionary change. To have the best chance of successful long-term survival, restored populations should reflect the extant variation found in remnants, but restored sites may suffer from genetic bottlenecks as a result of founder effects. Kankakee Sands is a large-scale restoration being conducted by The Nature Conservancy (TNC) in northwestern Indiana. Our goal was to test for loss of genetic variation in restored plant populations by comparing them with TNC’s seed source nursery and with local remnant populations that were the source of nursery seed and of the first few restored sites. Allozyme analysis of Baptisia leucantha, Asclepias incarnata, Coreopsis tripteris, and Zizia aurea showed low levels of allozyme diversity within all species and reductions in polymorphism, alleles per locus, and expected heterozygosity between remnants and restorations for all species except A. incarnata. Almost all lost alleles were rare; restored populations contained almost 90% of alleles at polymorphic loci that occurred in remnants at frequencies greater than 1%. Allele frequencies for most loci did not differ between remnants and restored sites. Most species showed significant allele frequency differentiation among remnant populations and among restored sites. Our results indicate that seed collection techniques used at Kankakee Sands captured the great majority of allozyme variation present in seed source remnant populations. [ABSTRACT FROM AUTHOR]

Published

2008

5. GENETIC DIVERSITY AND REPRODUCTIVE BIOLOGY IN WAREA CARTERI (BRASSICACEAE), A NARROWLY ENDEMIC FLORIDA SCRUB ANNUAL.

Author

Evans, Margaret K. and Dolan, Rebecca W.

Subjects

*PLANT diversity, *BIODIVERSITY

Abstract

Presents information on a study which assessed the genetic diversity in Warea carteri and made recommendations about how to capture this diversity in reserves. Materials and methods used; Results; Discussion.

Published

2000

6. Conservation Implications of Genetic Variation in Three Rare Species Endemic to Florida Rosemary...

Author

Dolan, Rebecca W. and Yahr, Rebecca

Subjects

*ERYNGIUM, *HYPERICUM

Abstract

Investigates patterns of distribution of genetic variation in Eryngium cuneifolium, Hypericum cumulicola and Liatris ohlingerae with overlapping ranges endemic to Florida rosemary scrub on the Lake Wales Ridge (LWR). Examples of dominant species of Florida scrub; Factors that lead to the reduction of LWR scrub habitat; Conservation implications.

Published

1999

7. Hypericum cumulicola demography in unoccupied and occupied Florida scrub patches with different time‐since‐fire.

Author

Quintana‐Ascencio, Pedro F., Dolan, Rebecca W., and Menges, Eric S.

Subjects

*HYPERICUM, *RARE plants

Abstract

1 Metapopulation models predict that unoccupied, but suitable, patches will exist for species subject to extinction and colonization dynamics. We compared the demographic responses of Hypericum cumulicola, a rare herbaceous species almost entirely restricted to Florida rosemary scrub, when transplanted to occupied or unoccupied patches. 2 Seedlings were transplanted and seeds buried into Florida rosemary scrub patches differing in time since last fire, and in the presence or absence of H. cumulicola. We used a replicated, factorial design to place the transplants and seeds in the field, and monitored their performance for 18 months. 3 Neither time‐since‐fire nor prior H. cumulicola site occupancy affected survival of transplants. Only time‐since‐fire affected growth. Time‐since‐fire, H. cumulicola occupancy, and their interaction affected reproductive effort, but these effects were not consistent between years. 4 Flowering and seed production led to subsequent seedling recruitment near transplants, mainly in recently burned sites. Genetic screening of transplants and seedlings showed that transplants in occupied sites could have crossed with nearby resident plants, but that offspring in sites previously unoccupied were likely to have been parented only by nearby transplants. 5 Seeds buried, and later exhumed, germinated after 1 or 2 years of burial, demonstrating a persistent soil seed bank from which populations could recover after fire. Neither time‐since‐fire nor H. cumulicola occupancy affected seed dormancy or germination. 6 Similar demography in unoccupied and occupied patches suggests that the patchy pattern of site occupancy by H. cumulicola is probably due to limited dispersal and periodic extinction, especially associated with long fire‐free intervals. Conservation measures need to protect unoccupied patches to allow metapopulation dynamics and persistence. [ABSTRACT FROM AUTHOR]

Published

1998

8. Demographic viability of populations of Silene regia in midwestern prairies: relationships with fire management, genetic variation, geographic location, population size and isolation.

Author

Menges, Eric S. and Dolan, Rebecca W.

Subjects

*SEED viability, *SILENE (Genus), *PRAIRIES

Abstract

1 We studied the demographic viability of populations of a long-lived iteroparous prairie perennial, Silene regia, in relation to management regimes, population sizes, geographical region (Ohio and Indiana vs. Missouri and Arkansas), degree of isolation and amount of genetic variation. Demographic data were collected from 16 populations for up to 7 years. 2 This species has high survivorship, slow growth, frequent flowering and episodic seedling recruitment. Matrix projection methods were used to summarize population performance with and without recruitment. Median finite rates of increase by population varied from 0.57 to 1.82 and from 0.44 to 0.99, respectively. 3 Populations with the highest rates of increase had been burned. Six of eight populations, for which stochastic modelling predicted persistence for 1000 years, included fire in their management. None of the five populations with predicted 100-year extinction probabilities of 100% was managed for conservation or burned. An intermediate group of three populations with at least 10% probability of extinction between 100 and 1000 years was not managed, but was none the less kept open by mowing and herbicide application. 4 Analysis of composite elasticities showed that growth and fecundity terms were higher for growing (vs. declining) populations and that growth elasticity was higher in burned than unburned populations. Lack of burning shifts the elasticity spectrum from that typical of open habitat herbs (higher growth and fecundity elasticities) to values usually found for closed habitat herbs (higher survival elasticities). 5 In multivariate analyses predicting finite rates of increase (with and without recruitment), fire management and region were the strongest predictors, followed by genetic variation, population size, isolation and interactions of population size and fire, and region and fire. Populations with the highest rates of increase were burned, eastern, more genetically diverse, larger and less isolated. Discrimination of populations with different extinction risks (three classes) was related mainly to fire, genetic variation and region. 6 Most of these conclusions support conservation biology predictions that population viability will be highest in larger, less-isolated, more genetically diverse populations. However, management and geographic trends have overriding roles affecting demographic viability. Habitat fragmentation and genetic depletion have the potential to threaten residual prairie populations of S. regia, but lack of fire management appears to be the primary short-term threat. [ABSTRACT FROM AUTHOR]

Published

1998

9. Patterns of isozyme variation in relation to population size, isolation, and phytogeographic...

Author

Dolan, Rebecca W.

Subjects

*RANGE plants, *ISOENZYMES, *GENETICS

Abstract

Examines the genetic structure of the prairie for Siline regia using isozyme analysis of the band phenotypes. Relationships between population size, isolation and phenotypic variation; Analysis of electrophoretic phenotypes; Analysis of band frequencies; Polymorphic index (PI); Levels of genetic variation.

Published

1994

10. Trials of the urban ecologist.

Author

Dolan, Rebecca W, Carter, Tim, Ryan, Travis, Salsbury, Carmen, Dolan, Thomas E, and Hennessy, Marjorie

Subjects

ECOLOGICAL research, PRACTICUMS, BIODIVERSITY research

Abstract

The article offers information on the insights gained and the obstacles encountered by student interns from Butler University's Center for Urban Ecology (CUE) while carrying out an ecological research in Indianapolis, Indiana. It notes that the researchers are exploring the ecology of the city, being the 12th largest city in the U.S. since 2003. It cites the challenges encountered such as large dogs that threaten the team and unexpected habitat conversion by bulldozer.

Published

2013