DOCSLIB.ORG

Astragalus Leptaleus Gray (Park Milkvetch): a Technical Conservation Assessment

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Astragalus Leptaleus Gray (Park Milkvetch): a Technical Conservation Assessment Astragalus leptaleus Gray (park milkvetch): A Technical Conservation Assessment Prepared for the USDA Forest Service, Rocky Mountain Region, Species Conservation Project February 24, 2006 Juanita A. R. Ladyman, Ph.D. JnJ Associates LLC 6760 S. Kit Carson Circle East Centennial, CO 80122 Peer Review Administered by Center for Plant Conservation Ladyman, J.A.R. (2006, February 24). Astragalus leptaleus Gray (park milkvetch): a technical conservation assessment. [Online]. USDA Forest Service, Rocky Mountain Region. Available: http://www.fs.fed.us/r2/ projects/scp/assessments/astragalusleptaleus.pdf [date of access]. ACKNOWLEDGMENTS The time spent and help given by all of the people and institutions mentioned in the reference section are gratefully acknowledged. I would also like to thank Dr. T. Zanoni of The New York Botanical Garden Herbarium, Dr. Michael Denslow of Pomona State College, Nan Lederer of the University of Colorado Herbarium, Jennifer Rowens of Colorado State University Herbarium, and Prof. Ronald Hartman and Joy Handley for sending me their herbarium records. I am grateful to the Wyoming Natural Diversity Database, in particular Bonnie Heidel, the Idaho Data Conservation Center, and the Montana Natural Heritage Program for providing relevant reports and element occurrence information. I also appreciate Andrew Kratz, USDA Forest Service Region 2, Chuck Davis, U.S. Fish and Wildlife Service, and Ron West, Colorado Natural Areas Program for giving me access to their files. I thank Deb Golanty at the Helen Fowler Library, Denver Botanic Gardens, for her persistence in retrieving some rather obscure articles. I would like to acknowledge using the Graphical Locater Program of Daniel L. Gustafson, Department of Biology, Montana State University, Bozeman, Montana. I appreciate the thoughtful reviews made by Janet Coles, Dr. Richard Spellenberg, Richard Vacirca, and an anonymous reviewer and thank them for their time in considering the document. AUTHOR’S BIOGRAPHY Juanita A. R. Ladyman received her B.Sc. degree (with First-class honors) in Biochemistry from London University, England. Her first professional position was as plant pathology laboratory technician and, later, as Greenhouse research supervisor with the Arid Lands Research Center on Sadiyat Island in the United Arab Emirates. She obtained her Ph.D. degree in Botany and Plant Pathology from Michigan State University where she was also a research assistant with the D.O.E. Plant Research Laboratory. She worked as a plant physiological ecologist and plant scientist for Shell Development Company conducting research on the physiology, ecology, and reproductive biology of economically important plant species and their wild relatives. She then worked for a plant biotechnology company in their Genetic Transformation and Plant Tissue Culture Division. For the last 14 years she has worked in the area of conservation, particularly on rare, endemic, and sensitive plant species in the southwest United States. For three years of that time, she was the botanist with the New Mexico Natural Heritage Program. She has conducted research and monitoring programs on both non-vascular and vascular species. She currently is a partner in JnJ Associates LLC, an environmental consulting company in Colorado. 2 3 SUMMARY OF KEY COMPONENTS FOR CONSERVATION OF ASTRAGALUS LEPTALEUS Status Astragalus leptaleus Gray (park milkvetch) is designated a sensitive species by the USDA Forest Service Region 2 and by the Salmon-Challis and Targhee national forests in Region 4. Within Region 2, A. leptaleus has been reported from the San Isabel, Medicine Bow, Routt, Roosevelt, Arapaho and probably the White River national forests. The NatureServe global rank for this species is G4 (apparently secure). Both the Montana and Idaho Natural Heritage Programs list A. leptaleus as S3 (vulnerable within the state), and the Colorado Natural Heritage Program ranks it S2 (imperiled within the state). The Wyoming Natural Diversity Database ranks it as SH (“historical”). It has not been observed in Wyoming since 1951 and may be extirpated from that state. These state and global ranks have no regulatory status. Primary Threats Astragalus leptaleus appears to be most vulnerable to loss of habitat. Over the last century, many of the moist meadows that provide its habitat have been converted to hay production. Its habitat is also valuable for livestock grazing, and it is palatable to livestock and other herbivores. Livestock grazing during the growing season suppresses flower and pod production. Sheep grazing may be particularly harmful. Peat and placer mining have affected some areas in which A. leptaleus occurs in Colorado, but the impacts of these activities on the species’ abundance and distribution are unknown. Astragalus leptaleus grows in environments with relatively open tree canopies, which suggests that fire may be necessary in maintaining its habitat. Fire suppression may be detrimental to the long-term sustainability of occurrences. Significant soil disturbance is likely to be detrimental because the species’ root system appears to be important to the long-term survival of an occurrence. For the same reason, factors contributing to accelerated soil erosion are likely to be harmful. The mesic and wet habitats of A. leptaleus are vulnerable to invasive weed infestation; however, the competitive ability of this species is unknown. Astragalus leptaleus appears to be an obligate wetland species, and because it has a limited geographic range, it is vulnerable to activities that cause its habitat to dry out. Primary Conservation Elements, Management Implications and Considerations Although the total range of Astragalus leptaleus extends from central Colorado to southeastern Montana and south-central Idaho, occurrences are isolated from one another and it appears to be generally uncommon. The assumption that it has been “overlooked” has not been adequately validated. Support for this assumption would require documented negative surveys in areas where later surveys discover occurrences. Lack of historical information prevents a definitive determination of how this species’ abundance and range may have changed over the last century, but with the current understanding of its ecology and biology it is likely that it has suffered a loss of habitat. This mesophytic perennial may prove to be an indicator species of hydrologic changes to its habitat. Astragalus leptaleus is able to spread vegetatively, at least to some extent, in areas used by livestock and wildlife. It is also likely to tolerate periodic mowing. However, repeated removal of aerial parts of the plant may limit seed production and be detrimental over the long term. Repeated removal of photosynthetic parts of the plant may ultimately weaken the root system through decreased nutrient input. The level at which aerial parts of the plant can be removed by either mowing or herbivore use without sustaining irreversible damage is unknown. 2 3 TABLE OF CONTENTS ACKNOWLEDGMENTS ..............................................................................................................................................2 AUTHOR’S BIOGRAPHY............................................................................................................................................2 SUMMARY OF KEY COMPONENTS FOR CONSERVATION OF ASTRAGALUS LEPTALEUS ...........................3 Status..........................................................................................................................................................................3 Primary Threats..........................................................................................................................................................3 Primary Conservation Elements, Management Implications and Considerations.....................................................3 LIST OF TABLES AND FIGURES ...............................................................................................................................5 INTRODUCTION ..........................................................................................................................................................6 Goal............................................................................................................................................................................6 Scope..........................................................................................................................................................................6 Treatment of Uncertainty ...........................................................................................................................................7 Publication of Assessment on the World Wide Web ..................................................................................................7 Peer Review ...............................................................................................................................................................7 MANAGEMENT STATUS AND NATURAL HISTORY .............................................................................................7 Management Status ....................................................................................................................................................7 Existing Regulatory Mechanisms, Management Plans, and Conservation Strategies...............................................8 Biology and Ecology..................................................................................................................................................9
Load more

Recommended publications
  • Table of Contents
    Appendix C Botanical Resources Table of Contents Purpose Of This Appendix ............................................................................................................. Below Tables C-1. Federal and State Status, Current and Proposed Forest Service Status, and Global Distribution of the TEPCS Plant Species on the Sawtooth National Forest ........................... C-1 C-2. Habit, Lifeform, Population Trend, and Habitat Grouping of the TEPCS Plant Species for the Sawtooth National Forest ............................................................................... C-3 C-3. Rare Communities, Federal and State Status, Rarity Class, Threats, Trends, and Research Natural Area Distribution for the Sawtooth National Forest ................................... C-5 C-4. Plant Species of Cultural Importance for the Sawtooth National Forest ................................... C-6 PURPOSE OF THIS APPENDIX This appendix is designed to provide detailed information about habitat, lifeform, status, distribution, and habitat grouping for the Threatened, Proposed, Candidate, and Sensitive (current and proposed) plant species found on the Sawtooth National Forest. The detailed information is provided to enable managers to more efficiently direct the implementation of Botanical Resources goals, objectives, standards, and guidelines. Additionally, this appendix provides detailed information about the rare plant communities located on the Sawtooth National Forest and should provide additional support of Forest-wide objectives. Species of cultural
    [Show full text]
  • (Leguminosae): Nomenclatural Proposals and New Taxa
    Great Basin Naturalist Volume 58 Number 1 Article 5 1-30-1998 Astragalus (Leguminosae): nomenclatural proposals and new taxa Stanley L. Welsh Brigham Young University Follow this and additional works at: https://scholarsarchive.byu.edu/gbn Recommended Citation Welsh, Stanley L. (1998) "Astragalus (Leguminosae): nomenclatural proposals and new taxa," Great Basin Naturalist: Vol. 58 : No. 1 , Article 5. Available at: https://scholarsarchive.byu.edu/gbn/vol58/iss1/5 This Article is brought to you for free and open access by the Western North American Naturalist Publications at BYU ScholarsArchive. It has been accepted for inclusion in Great Basin Naturalist by an authorized editor of BYU ScholarsArchive. For more information, please contact [email protected], [email protected]. Great Basin Naturalist 58(1), © 1998, pp. 45-53 ASTRAGALUS (LEGUMINOSAE): NOMENCLATURAL PROPOSALS AND NEW TAXA Stanley L. Welsh! ABSTRACT.-As part of an ongoing summary revision of Astragalus for the Flora North America project, several nomenclatural changes are indicated. Nomenclatural proposals include A. molybdenus val'. shultziorom (Barneby) Welsh, comb. nov.; A. australis var. aboriginorom (Richardson) Welsh, comb. nov.; A. australis var. cattoni (M.E. Jones) Welsh, comb. nov.; A. aU8tralis var. lepagei (Hulten) Welsh, comb. nov; A. australis var. muriei (Hulten) Welsh, comb. nov.; A. subcinereus var. sileranus (M.E. Jones) Welsh, comb. nov.; A. tegetariaides val'. anxius (Meinke & Kaye) Welsh, comb. nov.; A. ampullarioides (Welsh) Welsh, comb. nov.; A. cutlen (Barneby) Welsh, comb. nov.; and A. laccaliticus (M.E. Jones) Welsh, comb. nov. Proposals of new taxa include Astragalus sect. Scytocarpi subsect. Micl'ocymbi Welsh, subsed. nov., and A. sabulosus var.
    [Show full text]
  • PCA) Report Name Mosquito Range Site Code S.USCOHP*375
    Level 4 Potential Conservation Area (PCA) Report Name Mosquito Range Site Code S.USCOHP*375 IDENTIFIERS Site ID 342 Site Class PCA Site Alias Mosquito Peaks Cirques Macrosite Site Alias Hoosier Ridge Macrosite Site Alias Tenmile Macrosite Site Alias Mosquito Peaks Megasite Network of Conservation Areas (NCA) NCA Site ID NCA Site Code NCA Site Name - No Data County SITE DESCRIPTION Site Description This site incorporates nearly the entire alpine area of the Mosquito Range. The predominant habitats are characterized by alpine meadows, rock outcrops, scree slopes, boulder fields, alpine lakes, willow carrs, snowmelt streamlets, and permanent snow fields. Snow melt flows down the north and south-facing slopes in intermittent drainages from the top of the ridges. The slopes are typified by tufted hairgrass / golden avens (Deschampsia cespitosa / Geum rossii) and kobresia / golden avens (Kobresia myosuroides / Geum rossii) communities, with scattered patches of willows (Salix glauca and Salix brachycarpa) and krummholz Engelmann spruce (Picea engelmannii). Moist areas with mossy ground cover provide the necessary habitat for Penland alpine fen mustard (Eutrema penlandii), which is one of the elements of primary importance in this site. This site supports an extraordinarily high concentration of rare plant species. To date, 20 globally rare plant species and several state rare species have been documented within this site. High elevation outcrops of Leadville Limestone are said to be a predominant factor in setting the stage for such high densities of rare plant species. Many of the rarest plants in this site, including Penland alpine fen mustard, are thought to be restricted to this geologic substrate.
    [Show full text]
  • Legumes of the North-Central States: C
    LEGUMES OF THE NORTH-CENTRAL STATES: C-ALEGEAE by Stanley Larson Welsh A Dissertation Submitted, to the Graduate Faculty in Partial Fulfillment of The Requirements for the Degree of DOCTOR OF PHILOSOPHY Major Subject: Systematic Botany Approved: Signature was redacted for privacy. Signature was redacted for privacy. artment Signature was redacted for privacy. Dean of Graduat College Iowa State University Of Science and Technology Ames, Iowa I960 ii TABLE OF CONTENTS Page ACKNOWLEDGMENTS iii INTRODUCTION 1 HISTORICAL ACCOUNT 3 MATERIALS AND METHODS 8 TAXONOMIC AND NOMENCLATURE TREATMENT 13 REFERENCES 158 APPENDIX A 176 APPENDIX B 202 iii ACKNOWLEDGMENTS The writer wishes to express his deep gratitude to Professor Duane Isely for assistance in the selection of the problem and for the con­ structive criticisms and words of encouragement offered throughout the course of this investigation. Support through the Iowa Agricultural Experiment Station and through the Industrial Science Research Institute made possible the field work required in this problem. Thanks are due to the curators of the many herbaria consulted during this investigation. Special thanks are due the curators of the Missouri Botanical Garden, U. S. National Museum, University of Minnesota, North Dakota Agricultural College, University of South Dakota, University of Nebraska, and University of Michigan. The cooperation of the librarians at Iowa State University is deeply appreciated. Special thanks are due Dr. G. B. Van Schaack of the Missouri Botanical Garden library. His enthusiastic assistance in finding rare botanical volumes has proved invaluable in the preparation of this paper. To the writer's wife, Stella, deepest appreciation is expressed. Her untiring devotion, work, and cooperation have made this work possible.
    [Show full text]
  • Genetic Characterization of Three Varieties of Astragalus Lentiginosus (Fabaceae)
    Genetic characterization of three varieties of Astragalus lentiginosus (Fabaceae) BRIANJ. KNAus,' RICHC. CRONN,AND AARONLISTON I Knaus, B. J. (Oregon State University, Department of Botany and Plant Pa- thology, 2082 Cordley Hall, Corvallis, OR, 97331-2902, U.S.A.; e-mail: [email protected]), R. C. Cronn (USDA Forest Service Pacific Northwest Research Station, 3200 SW Jefferson Way, Corvallis, OR, 97331, U.S .A.; e-mail: [email protected]) & A. Liston (Oregon State University, Depart- ment of Botany and Plant Pathology, 2082 Cordley Hall, Corvallis, OR, 97331- 2902, U.S.A.; e-mail: [email protected]).Genetic characterization of three varieties of Astragalus lentiginosus (Fabaceae). Brittonia 57: 334-344. 2005.-Astragalus lentiginosus is a polymorphic species that occurs in geologi- cally young habitats and whose varietal circumscription implies active morpho- logical and genetic differentiation. In this preliminary study, we evaluate the po- tential of amplified fragment length polymorphism (AFLP) markers to resolve infraspecific taxa in three varieties of Astragalus lentiginosus. Distance-based principle coordinate and neighbor-joining analyses result in clustering of individ- uals that is congruent with population origin and varietal circumscription. Anal- ysis of molecular variance of two Oregon varieties demonstrates that varietal categories account for 11% of the total variance; in contrast, geographic proximity does not contribute to the total variance. AFLPs demonstrate an ability to dis- criminate varieties of A. lentiginosus despite a potentially confounding geographic pattern, and may prove effective at inferring relationships throughout the group. Key words: AFLP, amplified fragment length polymorphism, Astragalus lenti- ginosus, genetic differentiation, infraspecific taxa. Astragalus lentiginosus Dougl.
    [Show full text]
  • Population Study of Greater Snow Geese on Bylot Island (Nunavut) in 2003: a Progress Report
    POPULATION STUDY OF GREATER SNOW GEESE ON BYLOT ISLAND (NUNAVUT) IN 2003: A PROGRESS REPORT Gilles Gauthier Département de biologie & Centre d'études nordiques Université Laval, Québec Austin Reed Canadian Wildlife Service Environment Canada, Québec Jean-François Giroux Département des sciences biologiques Université du Québec à Montréal Dominique Berteaux Département de biologie, chimie et sciences de la santé & Centre d’études nordiques Université du Québec à Rimouski Marie-Christine Cadieux Département de biologie & Centre d’études nordiques Université Laval, Québec 18 November 2003 Gauthier, Reed, Giroux, Berteaux & Cadieux • 2003 progress report of Bylot Island goose project 2 INTRODUCTION In 2003, we continued our long-term study of the population dynamics of Greater Snow Geese (Chen caerulescens atlantica) and of the interactions between geese, plants and their predators on Bylot Island. Like many goose populations worldwide, Greater Snow Geese have increased considerably during the late XXth century (annual growth rate of ~10%). The exploding population of snow geese has imposed considerable stress on its breeding habitat, while extensive use of agriculture lands provides an unlimited source of food during winter and migratory stopovers for them. Remedial management during autumn, winter and spring has been undertaken since 1999 to curb the growth of this population. The long-term objectives of this project are to (1) study changes in the demographic parameters of the Greater Snow Goose population, and especially the effects of the recent spring conservation hunt, (2) determine the role of food availability and fox predation in limiting annual production of geese, and (3) monitor the impact of grazing on the vegetation of Bylot Island.
    [Show full text]
  • December 2012 Number 1
    Calochortiana December 2012 Number 1 December 2012 Number 1 CONTENTS Proceedings of the Fifth South- western Rare and Endangered Plant Conference Calochortiana, a new publication of the Utah Native Plant Society . 3 The Fifth Southwestern Rare and En- dangered Plant Conference, Salt Lake City, Utah, March 2009 . 3 Abstracts of presentations and posters not submitted for the proceedings . 4 Southwestern cienegas: Rare habitats for endangered wetland plants. Robert Sivinski . 17 A new look at ranking plant rarity for conservation purposes, with an em- phasis on the flora of the American Southwest. John R. Spence . 25 The contribution of Cedar Breaks Na- tional Monument to the conservation of vascular plant diversity in Utah. Walter Fertig and Douglas N. Rey- nolds . 35 Studying the seed bank dynamics of rare plants. Susan Meyer . 46 East meets west: Rare desert Alliums in Arizona. John L. Anderson . 56 Calochortus nuttallii (Sego lily), Spatial patterns of endemic plant spe- state flower of Utah. By Kaye cies of the Colorado Plateau. Crystal Thorne. Krause . 63 Continued on page 2 Copyright 2012 Utah Native Plant Society. All Rights Reserved. Utah Native Plant Society Utah Native Plant Society, PO Box 520041, Salt Lake Copyright 2012 Utah Native Plant Society. All Rights City, Utah, 84152-0041. www.unps.org Reserved. Calochortiana is a publication of the Utah Native Plant Society, a 501(c)(3) not-for-profit organi- Editor: Walter Fertig ([email protected]), zation dedicated to conserving and promoting steward- Editorial Committee: Walter Fertig, Mindy Wheeler, ship of our native plants. Leila Shultz, and Susan Meyer CONTENTS, continued Biogeography of rare plants of the Ash Meadows National Wildlife Refuge, Nevada.
    [Show full text]
  • Evolution of Angiosperm Pollen. 7. Nitrogen-Fixing Clade1
    Evolution of Angiosperm Pollen. 7. Nitrogen-Fixing Clade1 Authors: Jiang, Wei, He, Hua-Jie, Lu, Lu, Burgess, Kevin S., Wang, Hong, et. al. Source: Annals of the Missouri Botanical Garden, 104(2) : 171-229 Published By: Missouri Botanical Garden Press URL: https://doi.org/10.3417/2019337 BioOne Complete (complete.BioOne.org) is a full-text database of 200 subscribed and open-access titles in the biological, ecological, and environmental sciences published by nonprofit societies, associations, museums, institutions, and presses. Your use of this PDF, the BioOne Complete website, and all posted and associated content indicates your acceptance of BioOne’s Terms of Use, available at www.bioone.org/terms-of-use. Usage of BioOne Complete content is strictly limited to personal, educational, and non - commercial use. Commercial inquiries or rights and permissions requests should be directed to the individual publisher as copyright holder. BioOne sees sustainable scholarly publishing as an inherently collaborative enterprise connecting authors, nonprofit publishers, academic institutions, research libraries, and research funders in the common goal of maximizing access to critical research. Downloaded From: https://bioone.org/journals/Annals-of-the-Missouri-Botanical-Garden on 01 Apr 2020 Terms of Use: https://bioone.org/terms-of-use Access provided by Kunming Institute of Botany, CAS Volume 104 Annals Number 2 of the R 2019 Missouri Botanical Garden EVOLUTION OF ANGIOSPERM Wei Jiang,2,3,7 Hua-Jie He,4,7 Lu Lu,2,5 POLLEN. 7. NITROGEN-FIXING Kevin S. Burgess,6 Hong Wang,2* and 2,4 CLADE1 De-Zhu Li * ABSTRACT Nitrogen-fixing symbiosis in root nodules is known in only 10 families, which are distributed among a clade of four orders and delimited as the nitrogen-fixing clade.
    [Show full text]
  • U.S. Fish and Wildlife Service (USFWS) Utah Field Office Guidelines for Conducting and Reporting Botanical Inventories and Monit
    U.S. Fish and Wildlife Service (USFWS) Utah Field Office Guidelines for Conducting and Reporting Botanical Inventories and Monitoring of Federally Listed, Proposed and Candidate Plants August 31, 2011 Jones cycladenia Daniela Roth, USFWS Barneby ridge-cress Holmgren milk-vetch Jessi Brunson, USFWS Daniela Roth, USFWS Uinta Basin hookless cactus Bekee Hotze, USFWS Last chance townsendia Daniela Roth, USFWS Dwarf bear-poppy Daniela Roth, USFWS INTRODUCTION AND PURPOSE These guidelines were developed by the USFWS Utah Field Office to clarify our office’s minimum standards for botanical surveys for sensitive (federally listed, proposed and candidate) plant species (collectively referred to throughout this document as “target species”). Although developed with considerable input from various partners (agency and non-governmental personnel), these guidelines are solely intended to represent the recommendations of the USFWS Utah Field Office and should not be assumed to satisfy the expectations of any other entity. These guidelines are intended to strengthen the quality of information used by the USFWS in assessing the status, trends, and vulnerability of target species to a wide array of factors and known threats. We also intend that these guidelines will be helpful to those who conduct and fund surveys by providing up-front guidance regarding our expectations for survey protocols and data reporting. These are intended as general guidelines establishing minimum criteria; the USFWS Utah Field Office reserves the right to establish additional standards on a case-by-case basis. Note: The Vernal Field Office of the BLM requires specific qualifications for conducing botanical field work in their jurisdiction; nothing in this document should be interpreted as replacing requirements in place by that (or any other) agency.
    [Show full text]
  • National List of Vascular Plant Species That Occur in Wetlands 1996
    National List of Vascular Plant Species that Occur in Wetlands: 1996 National Summary Indicator by Region and Subregion Scientific Name/ North North Central South Inter- National Subregion Northeast Southeast Central Plains Plains Plains Southwest mountain Northwest California Alaska Caribbean Hawaii Indicator Range Abies amabilis (Dougl. ex Loud.) Dougl. ex Forbes FACU FACU UPL UPL,FACU Abies balsamea (L.) P. Mill. FAC FACW FAC,FACW Abies concolor (Gord. & Glend.) Lindl. ex Hildebr. NI NI NI NI NI UPL UPL Abies fraseri (Pursh) Poir. FACU FACU FACU Abies grandis (Dougl. ex D. Don) Lindl. FACU-* NI FACU-* Abies lasiocarpa (Hook.) Nutt. NI NI FACU+ FACU- FACU FAC UPL UPL,FAC Abies magnifica A. Murr. NI UPL NI FACU UPL,FACU Abildgaardia ovata (Burm. f.) Kral FACW+ FAC+ FAC+,FACW+ Abutilon theophrasti Medik. UPL FACU- FACU- UPL UPL UPL UPL UPL NI NI UPL,FACU- Acacia choriophylla Benth. FAC* FAC* Acacia farnesiana (L.) Willd. FACU NI NI* NI NI FACU Acacia greggii Gray UPL UPL FACU FACU UPL,FACU Acacia macracantha Humb. & Bonpl. ex Willd. NI FAC FAC Acacia minuta ssp. minuta (M.E. Jones) Beauchamp FACU FACU Acaena exigua Gray OBL OBL Acalypha bisetosa Bertol. ex Spreng. FACW FACW Acalypha virginica L. FACU- FACU- FAC- FACU- FACU- FACU* FACU-,FAC- Acalypha virginica var. rhomboidea (Raf.) Cooperrider FACU- FAC- FACU FACU- FACU- FACU* FACU-,FAC- Acanthocereus tetragonus (L.) Humm. FAC* NI NI FAC* Acanthomintha ilicifolia (Gray) Gray FAC* FAC* Acanthus ebracteatus Vahl OBL OBL Acer circinatum Pursh FAC- FAC NI FAC-,FAC Acer glabrum Torr. FAC FAC FAC FACU FACU* FAC FACU FACU*,FAC Acer grandidentatum Nutt.
    [Show full text]
  • Reproductive Ecology of Astragalus Filipes, a Great Basin
    REPRODUCTIVE ECOLOGY OF ASTRAGALUS FILIPES, A GREAT BASIN RESTORATION LEGUME by Kristal M. Watrous A thesis submitted in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE in Biology Approved: ________________________ _______________________ James H. Cane Edward W. Evans Major Professor Committee Member ________________________ _______________________ Eugene W. Schupp Byron R. Burnham Committee Member Dean of Graduate Studies UTAH STATE UNIVERSITY Logan, Utah 2010 ii ABSTRACT Reproductive Ecology of Astragalus filipes, a Great Basin Restoration Legume by Kristal M. Watrous, Master of Science Utah State University, 2010 Major Professor: Dr. James H. Cane Department: Biology Astragalus filipes Torrey ex. A. Gray (Fabaceae) is being studied and propagated for use in rangeland restoration projects throughout the Great Basin. Restoration forbs often require sufficient pollination services for seed production and persistence in restoration sites. Knowledge of a plant’s breeding biology is important in providing pollination for maximal seed set. Reproductive output from four manual pollination treatments (autogamy, geitonogamy, xenogamy, and distant xenogamy) was examined in a common garden. Pod set, seed set, and seed germination were quantified for each of the treatments. Seed set from four wild populations was compared to that of an openly visited common garden array. A. filipes was found to be self-compatible, but to benefit greatly from outcrossing. Less seed germinated from distantly outcrossed treatments than for any other treatment, indicating possible outbreeding depression. Common garden plants set less seed per pod than any wild population, possibly due to a depauperate pollinator guild in the common garden. iii Bees were surveyed at wild A. filipes populations to identify common pollinators.
    [Show full text]
  • Pamela Ricca Belter
    University of Alberta Relationships among diverse root foraging behaviours: understanding plant behavioural types by Pamela Ricca Belter A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Master of Science in Ecology Department of Biological Sciences © Pamela Ricca Belter Spring 2014 Edmonton, Alberta Permission is hereby granted to the University of Alberta Libraries to reproduce single copies of this thesis and to lend or sell such copies for private, scholarly or scientific research purposes only. Where the thesis is converted to, or otherwise made available in digital form, the University of Alberta will advise potential users of the thesis of these terms. The author reserves all other publication and other rights in association with the copyright in the thesis and, except as herein before provided, neither the thesis nor any substantial portion thereof may be printed or otherwise reproduced in material form whatsoever without the author’s prior written permission. ABSTRACT Behaviours capture the functional response of plants to environmental factors. I explore behaviours for twenty co-occurring grassland species in response to common belowground environmental factors (competition, mycorrhizae, heterogeneous and high nutrients) and their relationship to plant outcomes. First, detailed plant response to neighbours was observed using a specialized apparatus which allowed for visualization of the root system in situ. Species varied in response from strongly aggregating to strongly segregating roots by adjusting overall size and occupation of the soil and/or by altering allocation to roots and the specific placement of roots. In the second study, associations among response to nutrients, mycorrhizae, neighbours, foraging precision, and soil exploration behaviours created behavioural types along two axes: assertiveness and focus.
    [Show full text]