Newsletter #84 Winter 2015
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Art Gallery of Ballarat Annual Report 10-11 Annual Report
Art Gallery of Ballarat Annual Report 10-11 Annual Report 2010-11 ISSN 0726-5530 Chair’s Report .................................................................................................4 Art Gallery of Ballarat ACN: 145 246 224 Director’s Report .........................................................................................6 ABN: 28 145 246 224 Association Report .....................................................................................8 40 Lydiard Street North Ballarat Victoria 3350 Women’s Association Report ............................................................10 T 03 5320 5858 F 03 5320 5791 Gallery Guides Report ...........................................................................11 [email protected] Acquisitions ...................................................................................................13 www.artgalleryofballarat.com.au Outward Loan ..............................................................................................27 Exhibitions ......................................................................................................31 Public Programs ........................................................................................35 Education Visits and Programs ..........................................................37 Adopt an Artwork ......................................................................................40 Donations, Gifts and Bequests .........................................................41 Gallery Staff and Volunteers -
Biology of Leaf Gall-Inducing Thlibothrips Manipurenis Muraleedharan, 1982 on Ardisia Sp
ZOBODAT - www.zobodat.at Zoologisch-Botanische Datenbank/Zoological-Botanical Database Digitale Literatur/Digital Literature Zeitschrift/Journal: Beiträge zur Entomologie = Contributions to Entomology Jahr/Year: 2012 Band/Volume: 62 Autor(en)/Author(s): Taptamani Heishnam, Varatharajan Rameiyer, Raman A. Artikel/Article: Biology of leaf gall-inducing Thlibothrips manipurenis Muraleedharan, 1982 on Ardisia sp. (Myrsinaceae) in north-eastern India (Thysanoptera: Tubulifera: Phlaeothripidae). 69-76 ©www.senckenberg.de/; download www.contributions-to-entomology.org/ Beitr. Ent. Keltern ISSN 0005 - 805X 62 (2012) 1 S. 69 - 76 15.05.2012 Biology of leaf gall-inducingThlibothrips manipurenis Muraleedharan, 1982 onA rdisia sp. (Myrsinaceae) in north eastern India (Thysanoptera: Tubulifera: Phlaeothripidae) With 11 figures Heishnam Taptamani, Ramaiyer VAratharajan and A nantanarayanan Raman Summary Biology of the epiphyllous roll-gall-inducing Thlibothrips manipurensis was studied on Ardisia sp. under laboratory conditions. T manipurensis laid eggs linearly along the margins of tender leaves. Eggs hatched in 6.8 d and the larval duration was 3.4 and 8.2 d for larvae I and II, respectively. After 20.2 h as prepupa, T manipurensis grew into pupa; adult emergence occurred in 4 d. Each female laid 34±7 eggs and the mean longevity of the adult was 10.2 d. Increase in thrips numbers correlated with the age of the gall: 15 individ- uals/gall occurred in young (4—10 d) galls, whereas 28 occurred in mature (20 d) galls, and 36 in old (25 d) galls. Male-female ratio in old galls was 1:5. Mature galls included a homogeneous tissue structure, made of 12-15 layers of parenchyma cells with no distinction into spongy and palisade cells. -
Flora Survey on Hiltaba Station and Gawler Ranges National Park
Flora Survey on Hiltaba Station and Gawler Ranges National Park Hiltaba Pastoral Lease and Gawler Ranges National Park, South Australia Survey conducted: 12 to 22 Nov 2012 Report submitted: 22 May 2013 P.J. Lang, J. Kellermann, G.H. Bell & H.B. Cross with contributions from C.J. Brodie, H.P. Vonow & M. Waycott SA Department of Environment, Water and Natural Resources Vascular plants, macrofungi, lichens, and bryophytes Bush Blitz – Flora Survey on Hiltaba Station and Gawler Ranges NP, November 2012 Report submitted to Bush Blitz, Australian Biological Resources Study: 22 May 2013. Published online on http://data.environment.sa.gov.au/: 25 Nov. 2016. ISBN 978-1-922027-49-8 (pdf) © Department of Environment, Water and Natural Resouces, South Australia, 2013. With the exception of the Piping Shrike emblem, images, and other material or devices protected by a trademark and subject to review by the Government of South Australia at all times, this report is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/. All other rights are reserved. This report should be cited as: Lang, P.J.1, Kellermann, J.1, 2, Bell, G.H.1 & Cross, H.B.1, 2, 3 (2013). Flora survey on Hiltaba Station and Gawler Ranges National Park: vascular plants, macrofungi, lichens, and bryophytes. Report for Bush Blitz, Australian Biological Resources Study, Canberra. (Department of Environment, Water and Natural Resources, South Australia: Adelaide). Authors’ addresses: 1State Herbarium of South Australia, Department of Environment, Water and Natural Resources (DEWNR), GPO Box 1047, Adelaide, SA 5001, Australia. -
Pollination Drop in Relation to Cone Morphology in Podocarpaceae: a Novel Reproductive Mechanism Author(S): P
Pollination Drop in Relation to Cone Morphology in Podocarpaceae: A Novel Reproductive Mechanism Author(s): P. B. Tomlinson, J. E. Braggins, J. A. Rattenbury Source: American Journal of Botany, Vol. 78, No. 9 (Sep., 1991), pp. 1289-1303 Published by: Botanical Society of America Stable URL: http://www.jstor.org/stable/2444932 . Accessed: 23/08/2011 15:47 Your use of the JSTOR archive indicates your acceptance of the Terms & Conditions of Use, available at . http://www.jstor.org/page/info/about/policies/terms.jsp JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact [email protected]. Botanical Society of America is collaborating with JSTOR to digitize, preserve and extend access to American Journal of Botany. http://www.jstor.org AmericanJournal of Botany 78(9): 1289-1303. 1991. POLLINATION DROP IN RELATION TO CONE MORPHOLOGY IN PODOCARPACEAE: A NOVEL REPRODUCTIVE MECHANISM' P. B. TOMLINSON,2'4 J. E. BRAGGINS,3 AND J. A. RATTENBURY3 2HarvardForest, Petersham, Massachusetts 01366; and 3Departmentof Botany, University of Auckland, Auckland, New Zealand Observationof ovulatecones at thetime of pollinationin the southernconiferous family Podocarpaceaedemonstrates a distinctivemethod of pollencapture, involving an extended pollinationdrop. Ovules in all generaof the family are orthotropousand singlewithin the axil of each fertilebract. In Microstrobusand Phyllocladusovules are-erect (i.e., the micropyle directedaway from the cone axis) and are notassociated with an ovule-supportingstructure (epimatium).Pollen in thesetwo genera must land directly on thepollination drop in theway usualfor gymnosperms, as observed in Phyllocladus.In all othergenera, the ovule is inverted (i.e., the micropyleis directedtoward the cone axis) and supportedby a specializedovule- supportingstructure (epimatium). -
Podocarpus Has a fleshy Enlarged Stem with the Seed Capsule Attached
Some members of the Podocarpaceae It now seems as if the general lock down is being eased across the country and I am looking to do other things than write these notes which seemed helpful eleven weeks ago but hopefully soon will not be so. Not quite a bakers dozen but one more than a S.I. preferred unit. Also I must get on with the June FACTT Newsletter which I like to think is as eagerly awaited as these notes. This note is about a family, members of which are found in fossils of Gondwana times and now in those countries which formed the original landmass and some other countries. Podocarpus has a fleshy enlarged stem with the seed capsule attached. It is easy to see the possibility of birds spreading the seeds, unlike Nothofagus where the seed is less likely to be spread widely one would think. Regarding the movement of continents it needs to be mentioned that a million is a very large number. If, as Australia is presently doing, a landmass moves 70mm a year in just 1 million years; a short period of time in geological terms; the distance traveled is 70km. Australia is moving so fast in fact that GPS can’t keep up. Some people think that taxonomists fall into two broad categories - Lumpers and Splinters. Lumpers tend to say -Well the species are so similar they are in fact one. Splitters on the other hand tend to the view that the fine details represent sufficient differences to recognise they are different species. -
Post-Fire Recovery of Woody Plants in the New England Tableland Bioregion
Post-fire recovery of woody plants in the New England Tableland Bioregion Peter J. ClarkeA, Kirsten J. E. Knox, Monica L. Campbell and Lachlan M. Copeland Botany, School of Environmental and Rural Sciences, University of New England, Armidale, NSW 2351, AUSTRALIA. ACorresponding author; email: [email protected] Abstract: The resprouting response of plant species to fire is a key life history trait that has profound effects on post-fire population dynamics and community composition. This study documents the post-fire response (resprouting and maturation times) of woody species in six contrasting formations in the New England Tableland Bioregion of eastern Australia. Rainforest had the highest proportion of resprouting woody taxa and rocky outcrops had the lowest. Surprisingly, no significant difference in the median maturation length was found among habitats, but the communities varied in the range of maturation times. Within these communities, seedlings of species killed by fire, mature faster than seedlings of species that resprout. The slowest maturing species were those that have canopy held seed banks and were killed by fire, and these were used as indicator species to examine fire immaturity risk. Finally, we examine whether current fire management immaturity thresholds appear to be appropriate for these communities and find they need to be amended. Cunninghamia (2009) 11(2): 221–239 Introduction Maturation times of new recruits for those plants killed by fire is also a critical biological variable in the context of fire Fire is a pervasive ecological factor that influences the regimes because this time sets the lower limit for fire intervals evolution, distribution and abundance of woody plants that can cause local population decline or extirpation (Keith (Whelan 1995; Bond & van Wilgen 1996; Bradstock et al. -
Phoenix Active Management Area Low-Water-Use/Drought-Tolerant Plant List
Arizona Department of Water Resources Phoenix Active Management Area Low-Water-Use/Drought-Tolerant Plant List Official Regulatory List for the Phoenix Active Management Area Fourth Management Plan Arizona Department of Water Resources 1110 West Washington St. Ste. 310 Phoenix, AZ 85007 www.azwater.gov 602-771-8585 Phoenix Active Management Area Low-Water-Use/Drought-Tolerant Plant List Acknowledgements The Phoenix AMA list was prepared in 2004 by the Arizona Department of Water Resources (ADWR) in cooperation with the Landscape Technical Advisory Committee of the Arizona Municipal Water Users Association, comprised of experts from the Desert Botanical Garden, the Arizona Department of Transporation and various municipal, nursery and landscape specialists. ADWR extends its gratitude to the following members of the Plant List Advisory Committee for their generous contribution of time and expertise: Rita Jo Anthony, Wild Seed Judy Mielke, Logan Simpson Design John Augustine, Desert Tree Farm Terry Mikel, U of A Cooperative Extension Robyn Baker, City of Scottsdale Jo Miller, City of Glendale Louisa Ballard, ASU Arboritum Ron Moody, Dixileta Gardens Mike Barry, City of Chandler Ed Mulrean, Arid Zone Trees Richard Bond, City of Tempe Kent Newland, City of Phoenix Donna Difrancesco, City of Mesa Steve Priebe, City of Phornix Joe Ewan, Arizona State University Janet Rademacher, Mountain States Nursery Judy Gausman, AZ Landscape Contractors Assn. Rick Templeton, City of Phoenix Glenn Fahringer, Earth Care Cathy Rymer, Town of Gilbert Cheryl Goar, Arizona Nurssery Assn. Jeff Sargent, City of Peoria Mary Irish, Garden writer Mark Schalliol, ADOT Matt Johnson, U of A Desert Legum Christy Ten Eyck, Ten Eyck Landscape Architects Jeff Lee, City of Mesa Gordon Wahl, ADWR Kirti Mathura, Desert Botanical Garden Karen Young, Town of Gilbert Cover Photo: Blooming Teddy bear cholla (Cylindropuntia bigelovii) at Organ Pipe Cactus National Monutment. -
Evidence of the Morphological Range, Transition and Evolution of Stomatal Protection Mechanisms in Some Selected Proteaceae
EVIDENCE OF THE MORPHOLOGICAL RANGE, TRANSITION AND EVOLUTION OF STOMATAL PROTECTION MECHANISMS IN SOME SELECTED PROTEACEAE Ratnawati Submitted in fulfilment of the requirements for the Masters of Science Degree l ' \ ' i. <.. I . t I \ I \ :'\. ' • SCHOOL OF PLANT SCIENCE DECEMBER 2001 DECEMBER 2001 This thesis is not to be made available for loan or copying for two years following the date this statement was signed. Following that time the thesis may be made available for loan and limited copying in accordance with the Copyright Act 1968. - - ---- - __·1 -----------~--- --- -- ------------- ------- DECLARATION Except as stated herein, this thesis contains no material which has been accepted for the award or any other degree or diploma, and to the best of my knowledge and belief contains no copy or paraphrase of material previously published or written by any other person, except where due reference is made in the text. I dedicate my work to my beloved husband, Agung, and my sons, Odit and Yusta, for their spiritual support during my study. Abstract Xero- and scleromorphic adaptations are obviously shown by Australian plants, in response to the Australian climate and edaphic factors. Since these adaptations overlap, there are problems separating the two. Some qualitative hypotheses about the distinction between xero- and scleromorphic characters have been proposed. This research is an effort to quantitatively determine xeromorphic characters in some members of the Proteaceae, in order to elaborate upon some of the existing hypotheses about these characters. Twenty three species of Banksia, 16 species of Grevillea and 6 species of Orites were sectioned and observed under the light micrscope and measurements were made of the stomata! depressions, margin recurvations, cuticle thickness and hair dimensions. -
NORTHERN FORESTS NATIVE FOREST RESERVES RESOURCE DOCUMENT Wirrabara Range, Spaniards Gully & King Tree
NORTHERN FORESTS NATIVE FOREST RESERVES RESOURCE DOCUMENT Wirrabara Range, Spaniards Gully & King Tree March 2011 The Northern Forests Native Forest Reserves Resource Document 1 Foreword The Northern Forests Native Forest Reserves Resource Document has been prepared to clearly state the purpose and objectives for these Reserves and to summarise resource information pertaining to them. This resource document aligns with the relevant legislation, procedures and actions contained within the Northern Forests Forest Management Plan, ForestrySA’s Forest Management System and Forestry Manual. The relevant areas delineated herein are proclaimed or planned to be proclaimed as Native Forest Reserves under the Forestry Act 1950. The resource document includes details of work to be undertaken under a proposed management program, and relevant biological data. Information contained in this document is current at the date of production. © ForestrySA 2011. Published 2011 by ForestrySA, Adelaide, South Australia. ISBN: 978-0-7308-7408-9 This work is copyright. Apart from any use permitted under the Copyright Act 1968, no part of this plan may be reproduced by any process without prior written permission from ForestrySA. Requests and inquiries concerning reproduction and rights should be addressed to: ForestrySA PO Box 162 MOUNT GAMBIER SA 5290 Citation: ForestrySA (2011), The Northern Forests Native Forest Reserves Draft Resource Document, ForestrySA, Adelaide, South Australia. Cover photos: ForestrySA. Disclaimer: While this publication may be of assistance to you, ForestrySA and its officers do not guarantee that it is without flaw of any kind or is wholly appropriate for your particular purpose. ForestrySA therefore disclaims all liability for any error, loss or other consequence that may arise from you relying on any information in this publication. -
Seed Fill, Viability and Germination of NSW Species in the Family Rutaceae
Seed fill, viability and germination of NSW species in the family Rutaceae Amelia J. Martyn , Leahwyn U. Seed , Mark K. J. Ooi 1 and Catherine A. Offord Botanic Gardens Trust, Mount Annan Botanic Garden, Mount Annan Drive, Mount Annan, NSW 2567, AUSTRALIA 1 Scientific Services Division, Department of Environment, Climate Change and Water NSW, PO Box 1967, Hurstville NSW 2220, AUSTRALIA Abstract: The New South Wales Seedbank (at Mount Annan Botanic Garden) stores seeds of both common and threatened species for conservation, research and restoration or revegetation projects. The value of the collections depends on our ability to germinate seeds once they have been retrieved from storage. The collection includes 129 collections representing 93 taxa in the family Rutaceae, but seed viability in Rutaceae is variable, germination cues are poorly-understood and problems are likely to arise in trying to grow plants from seed. In this study we quantified seed fill and/or viability and germination for 112 species in the Rutaceae family. For many of the species, this is the first time that these seed characteristics have been recorded. We found that seed fill (0–100%) and seed viability (0–97%), were highly variable, with 80% of collections having low viability (<75%). There was also a trend for threatened species to have lower seed fill than common species, while viability and germination were similar. This review reaffirms the need for further study of seed characteristics in Rutaceae. Cunninghamia (2009) 11(2): 203–212 Introduction variability to be retained. Seed research in Rutaceae has been hampered by low seed numbers and poor viability, making Plant species in the family Rutaceae make up a significant it difficult to collect sufficient seeds to study germination component of the understorey in many temperate Australian and dormancy. -
Geijera Salicifolia Click on Images to Enlarge
Species information Abo ut Reso urces Hom e A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Geijera salicifolia Click on images to enlarge Family Rutaceae Scientific Name Geijera salicifolia Schott Schott, H.W. (1834) Fragmenta Botanica, Rutaceae : 7 (1834). Type: Broad Sound near Upper Head, 15 Sept. Flowers. Copyright G. Sankowsky 1802, R.Brown; iso: CANB. Common name Flintwood; Brush Wilga; Scrub Wilga; Satinheart, Green; Green Satinheart; Narrow Leaved Brush Wilga; Narrow-leaved Scrub Wilga; Wilga; Axegapper; Glasswood; Greenheart Stem Blaze darkening on exposure to a very dark brown or olive brown. Blaze layering, if visible, very fine. Leaves Flowers. Copyright CSIRO Young leaves terminating twigs curled lengthways into a cylinder or narrow cone resembling the sheathing stipule on a fig (Ficus spp.). Leaf blades about 3-19 x 1-7.5 cm. Midrib raised on the upper surface but petiole grooved on the upper surface. Oil dots very numerous. Leaves somewhat aromatic when crushed. Flowers Each petal about 2-2.5 mm long, containing about 12-20 comparatively large oil glands. Disk yellow or yellow-green, comparatively large and enclosing at least the lower half of the ovary. Anther filaments attached outside the disk. Leaves and Flowers. Copyright CSIRO Fruit Individual fruiting carpels about 5-7 mm diam. Surface of the fruit glandular-rugose because of large oil glands below the epidermis. Seeds about 5-6 x 4 mm, sarcotesta shiny black, completely enclosing the seed. Testa comparatively thick and hard, surface rugose. -
Appendix O – Biological Resources Technical Memorandum and Tree Removal Plan
ONE METRO WEST DRAFT FINAL ENVIRONMENTAL IMPACT REPORT – VOLUME I TECHNICAL APPENDICES Appendices Appendix O Biological Resources Technical Memorandum and Tree Removal Plan February 2020April 2021 ONE METRO WEST DRAFT FINAL ENVIRONMENTAL IMPACT REPORT – VOLUME I TECHNICAL APPENDICES Appendices This page intentionally left blank. February 2020April 2021 CARLSBAD FRESNO IRVINE LOS ANGELES PALM SPRINGS POINT RICHMOND RIVERSIDE MEMORANDUM ROSEVILLE SAN LUIS OBISPO DATE: May 30, 2019 TO: Ryan Bensley, Associate FROM: Heather Monteleone, Assistant Biologist Bo Gould, Senior Biologist SUBJECT: Biological Resources Technical Memorandum for One Metro West (LSA Project No. RSE1901) This technical memorandum serves as a biological resources assessment for the One Metro West Project (project) in Costa Mesa, California. The purpose of this assessment is to determine whether biological resources—including sensitive and/or special-status plant and wildlife species—may be present on the project site, whether such resources might be affected by the project, and to make recommendations to avoid, reduce, and/or mitigate any potentially significant impacts to biological resources, as applicable. This technical information is provided for project planning purposes and review under the California Environmental Quality Act (CEQA), California Endangered Species Act (CESA), the federal Endangered Species Act (FESA), and other pertinent regulations. PROJECT DESCRIPTION The proposed project is a mixed-use development that would consist of residential, specialty retail, creative office, and recreation uses. The vision of the project is to create a mixed-use community that would provide housing near jobs in a campus-like setting with on-site amenities, a 1.7-acre open space area, and connection to bicycle trails.