Relevant bibliographies by topics / Plants – Catalogs and collections – Australia

Academic literature on the topic 'Plants – Catalogs and collections – Australia'

Author: Grafiati
Published: 10 December 2022
Last updated: 29 January 2023

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Journal articles on the topic "Plants – Catalogs and collections – Australia"

1

BRUMLEY, CAMERON. "A checklist and host catalogue of the aphids (Hemiptera: Aphididae) held in the Australian National Insect Collection." Zootaxa 4728, no. 4 (January 24, 2020): 575–600. http://dx.doi.org/10.11646/zootaxa.4728.4.12.

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The aim of this paper is to provide a checklist for Australian collected aphids present in the Australian National Insect Collection. Host plants for each species are provided, alongside Australian State and territory distribution. Six species are documented for the first time in Australia: Aphis forbesi, Micromyzella filicis, Trichosiphonaphis polygoni, Wahlgreniella nervata, Reticulaphis distylii and Reticulaphis inflata. A total of 137 new host plant associations are documented, spread across 51 species of aphids. A list of the remaining species previously published as present in Australia is also included.
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BICKERSTAFF, JAMES R. M., SHANNON S. SMITH, DEBORAH S. KENT, ROGER A. BEAVER, AINSLEY E. SEAGO, and MARKUS RIEGLER. "A review of the distribution and host plant associations of the platypodine ambrosia beetles (Coleoptera: Curculionidae: Platypodinae) of Australia, with an electronic species identification key." Zootaxa 4894, no. 1 (December 8, 2020): 69–80. http://dx.doi.org/10.11646/zootaxa.4894.1.3.

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Ambrosia beetles (Platypodinae and some Scolytinae) are ecologically and economically important weevils (Coleoptera: Curculionidae) that develop within the sapwood and heartwood of woody plants, and their larval and adult stages are dependent on fungal symbionts. Platypodinae mostly occur in tropical and subtropical biomes, with a few species occurring in temperate regions. Australia has 44 recorded platypodine species including 13 species which may only have been intercepted at or near ports of entries and are without established populations in Australia. The host tree associations and biogeography of Australian Platypodinae are largely undocumented, and no comprehensive identification key exists. Here, we review species records, host tree associations, biogeographic distributions, and morphological characteristics of Australian Platypodinae. For this, we examined collection specimens, monographs, catalogues, taxonomic inventories, journal articles and online databases, and developed an electronic LUCID identification key for 36 species recorded in Australia. This review and identification key will be a valuable resource for forestry managers and biosecurity officers and will support diagnostics and future research of these beetles, their biology, and ecological interactions.
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Veiga, Allan, Antonio Saraiva, and Cláudia da Silva. "The Online Pollen Catalogs Network (RCPol)." Biodiversity Information Science and Standards 2 (May 17, 2018): e25658. http://dx.doi.org/10.3897/biss.2.25658.

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Aiming at promoting interaction among researchers and the integration of data from their pollen collections, herbaria and bee collections, RCPol was created in 2013. In order to structure RCPol work, researchers and collaborators have organized information on Palynology and trophic interactions between bees and plants. During the project development, different computing tools were developed and provided on RCPol website (http://rcpol.org.br), including: interactive keys with multiple inputs for species identification (http://chaves.rcpol.org.br); a glossary of palinology related terms (http://chaves.rcpol.org.br/profile/glossary/eco); a plant-bee interactions database (http://chaves.rcpol.org.br/interactions); and a data quality tool (http://chaves.rcpol.org.br/admin/data-quality). Those tools were developed in partnership with researchers and collaborators from Escola Politécnica (USP) and other Brazilian and foreign institutions that act on palynology, floral biology, pollination, plant taxonomy, ecology, and trophic interactions. The interactive keys are organized in four branches: palynoecology, paleopalynology, palynotaxonomy and spores. These information are collaboratively digitized and managed using standardized Google Spreadsheets. All the information are assessed by a data quality assurance tool (based on the conceptual framework of TDWG Biodiversity Data Quality Interest Group Veiga et al. 2017) and curated by palynology experts. In total, it has published 1,774 specimens records, 1,488 species records (automatically generated by merging specimens records with the same scientific name), 656 interactions records, 370 glossary terms records and 15 institutions records, all of them translated from the original language (usually Portuguese or English) to Portuguese, English and Spanish. During the projectʼs first three years, 106 partners, among researchers and collaborators from 28 institutions from Brazil and abroad, actively participated on the project. An important part of the project's activities involved training researchers and students on palynology, data digitization and on the use of the system. Until now six training courses have reached 192 people.
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Morrison, SM, and JK Scott. "Variation in Populations of Tribulus terrestris (Zygophyllaceae) .3. Isozyme Analysis." Australian Journal of Botany 44, no. 2 (1996): 201. http://dx.doi.org/10.1071/bt9960201.

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Isozyme variation in seedlings was investigated as part of a study to identify the origins of the widespread weed and potential biological control target Tribulus terrestris L. s.1. (Zygophyllaceae). Seedlings were obtained from 30 Australian and 24 overseas collections of burrs. Polymorphism was detected in 8 of the 11 putative loci scored. Queensland and Northern Territory collections differed from other Australian and non-Australian collections, indicating that they belong to a separate and possibly native Australian species. Other Australian collections had a high genetic similarity to burrs obtained from the Mediterranean, West Asia, South Africa, Namibia and the USA, the latter being an introduced population. Two Namibian collections formed a separate group and it is possible that southern Africa, like Australia, has native and introduced plants of T. terrestris. All Indian and two Kuwait collections were grouped together and had little similarity with any other group. Tribulus terrestris in southern Australia is most likely to have originated in the Mediterranean or West Asian region.
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Gordillo, Luis F., Mikel R. Stevens, Mark A. Millard, and Brad Geary. "Screening Two Lycopersicon peruvianum Collections for Resistance to Tomato spotted wilt virus." Plant Disease 92, no. 5 (May 2008): 694–704. http://dx.doi.org/10.1094/pdis-92-5-0694.

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The United States Department of Agriculture (USDA) Research Service and the Tomato Genetics Resource Center (TGRC) Lycopersicon peruvianum germplasm collections (16,335 plants from 285 accessions) were screened with the Tomato spotted wilt virus (TSWV) isolates TSWV6 from Hawaii, and Anwa-1 from Western Australia. Using TSWV6 to screen for resistance, 10,634 L. peruvianum plants from 280 accessions were screened for resistance, resulting in 168 (60%) accessions with 1,437 (14%) plants indicating resistance, with all 1,404 89S (Sw-5+/Sw-5+) and 1,456 89R (Sw-5/Sw-5) controls infected. When using Anwa-1 for screening, 864 (15%) of 5,701 L. peruvianum plants were uninfected from 106 of the 181 accessions tested, and 472 (95%) of the 495 89S and 421 (73%) of the 574 89R controls were infected. Of the 172 accessions tested with both isolates, 54 were resistant to one isolate but not the other. Additionally, more accessions from the USDA than from the TGRC collection indicated resistance. TSWV-resistant accessions were somewhat equally distributed throughout the L. peruvianum geographic range, with an observation that northern Chile and southern Peru seemed to have an unusually high portion of accession indicating resistance. The value of Sw-5 is discussed in relationship to potential additional sources of TSWV resistance.
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6

Jobson, Peter, Joanne Birch, Gillian Brown, Jeremy J. Bruhl, Lyn Cave, Frank Hemmings, Sarah Hirst, et al. "Managers of Australasian Herbarium Collections (MAHC): A MARK of Curation Excellence." Biodiversity Information Science and Standards 2 (June 13, 2018): e26283. http://dx.doi.org/10.3897/biss.2.26283.

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Managers of Australasian Herbarium Collections (MAHC) is a sub-committee of the Council of Heads of Australasian Herbaria (CHAH) and provides advice and recommendations pertaining to the management of herbarium collections. It was formed in 2009 based initially on Australian herbaria, and later incorporated New Zealand herbaria. MAHC currently has 18 member institutions representing both government funded, and university based herbaria, and includes both the largest (National Herbarium of Victoria - MEL) and smallest collections (Macquarie University - MQU) in the region. The group meets in person annually, and holds regular conference phone calls throughout the year. MAHC has proved itself to be a very cohesive committee, despite time, sizing, staffing, and funding differences. It prides itself in being inclusive, cooperative, collegiate, collaborative and supportive. It has a strong mentor approach toward early career collections managers or those new to collections management. The group has a healthy forward planning outlook, developing, promoting and implementing collections management policy, recommendations, guidelines and standards. This cohesion has resulted in a toolkit of resources that are freely available and strives for a unified world class best practice herbarium curation. Some of these universally agreed tools include templates, biosecurity documents, disaster mitigation and preparation for Nagoya Protocol implementation for Australia and New Zealand. MAHC supports new international initiatives and manages the day to day running of programmes such as the Global Plants Initiative project imaging all vascular type specimens housed in Australasia. MAHC collaborates with CHAH and the data sub-committee, HISCOM (Herbarium Information Systems Committee), for continued improvements in sharing digital data and specimens via the Australasian Virtual Herbarium (AVH https://avh.chah.org.au/) and Atlas of Living Australia (ALA https://www.ala.org.au/) services. This talk will use examples to highlight the effectiveness and success of a unified group in: developing standard practice in curation, incorporating improved curation procedures, and its ability to be agile, responding to incidents at an international level.
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GANESAN, E. K., JOHN A. WEST, and ORLANDO NECCHI JR. "A catalogue and bibliography of non-marine (freshwater and estuarine) Rhodophyta (red algae) of India." Phytotaxa 364, no. 1 (August 7, 2018): 1. http://dx.doi.org/10.11646/phytotaxa.364.1.1.

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An annotated bibliographic catalogue of Indian red algae (Rhodophyta) occurring in freshwater and estuarine habitats (moist terrestrial soils, ponds, streams, rivers, lakes, large inland brackish water lagoons and coastal estuaries), based on more than a century (1846 to 2017) of publications is presented in a single coherent work for the first time. There have been 81 taxonomic entities (species, varieties and doubtful records), distributed among 21 genera recorded for the vast Indian sub-continent. Species distribution among the 21 genera are as follows: Audouinella—12; Balliopsis—1; Batrachospermum—11; Bostrychia—7; Caloglossa—8; Catenella—3; Chroodactylon (including Asterocytis)—2; Chroothece—1; Compsopogon—8, Compsopogonopsis—1; Hildenbrandia—1; Kumanoa—7; Kyliniella—1; Lemanea—6; Nothocladus—1; Polysiphonia—1; Porphyridium—1; Sheathia—1; Sirodotia—4; Thorea—2; and Tuomeya—2. Of the seven currently recognized classes of Rhodophyta, no members of Bangiophyceae, Cyaniodiophyceae, or Rhodellophyceae are recorded from India. For each taxon, the following information is provided: (i) valid and currently accepted binomial (ii) synonyms as applicable to Indian records (iii) references with distribution in India and (iv) brief notes. Descriptions of new species based on Indian collections (holotypes) are indicated and some new combinations were made, when necessary. Several generic records (e.g., Balliopsis, Hildenbrandia, Kyliniella, Nothocladus and Tuomeya) and some species records (e.g. Batrachospermum longiarticulatum, Lemanea australis, L. catenata, L. fluviatilis, L. mamillosa, L. torulosa and Thorea hispida) warrant detailed confirmatory data based on reinvestigation of fresh collections for morphology, reproduction and particularly molecular data to confirm the presence in the country. Future collections, especially in the Indian Biodiversity Hotspots (Indo-Burma, Western and Eastern Ghats and Andaman & Nicobar Islands), may uncover the occurrence of genera such as Bangia, Cyanidium and Nemalionopsis known to be present in neighbouring countries of Pakistan, Nepal and Thailand. Geothermal (acidic) hot water springs in India may reveal the presence of extremophilic unicellular red algal genera like Cyanidium, Cyanidioschyzon and Galdieria of the Cyanidiophyceae. Two maps showing the political and biogeographic zones of India are included. The need to preserve holotype and duplicate/voucher specimens with GPS data of future collections of red algal groups in a centralized national facility is also highlighted.
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8

Forrest, Laura L., David G. Long, D. Christine Cargill, Michelle L. Hart, Josephine Milne, Daniela B. Schill, Rodney D. Seppelt, and Juan Carlos Villarreal. "On Monocarpus (Monocarpaceae, Marchantiopsida), an isolated salt-pan complex thalloid liverwort." Australian Systematic Botany 28, no. 3 (2015): 137. http://dx.doi.org/10.1071/sb15012.

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The phylogenetic placement of Monocarpus sphaerocarpus D.J.Carr (Monocarpaceae), a member of the complex thalloid liverworts with highly specialised morphology, presumably related to its saltpan habitat, has been determined on the basis of molecular data. Within the complex thalloid liverworts, Monocarpus resolves as sister to the Sphaerocarpales clade. A new line drawing of Monocarpus is provided, as are the first colour photographs of living plants. Detailed ornamentation of the spores of Monocarpus collections from Australia and South Africa, as revealed by scanning electron micrography, is reported, and some of the morphological features that unite and separate Monocarpus and the Sphaerocarpales s.str. are discussed.
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9

Stoddard, F. L., S. Kohpina, and R. Knight. "Variability of Ascochyta fabae in South Australia." Australian Journal of Agricultural Research 50, no. 8 (1999): 1475. http://dx.doi.org/10.1071/ar98204.

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Fifty-two isolates of Ascochyta fabae were established from 23 collections made in 3 States of Australia and were purified through 2 cycles of single-spore isolation. The isolates were evaluated for spore size, spore production, colony diameter, aerial mycelium, and pycnidia production. Variation in all of these traits among related single-spore cultures was comparable to that among unrelated ones and only colony diameter varied significantly among isolates. Spore size was 3–6 by 10–26 µm. Eight of these 52 isolates were chosen for further investigations of pathogenicity characteristics using 8 populations of faba bean. Plants were scored daily for rate of appearance of symptoms and then 15 and 21 days after inoculation for lesion size and number, production of pycnidia on the lesions and overall disease score. Leaves and stems reacted differently to the disease, with one isolate producing many leaf lesions but few stem lesions on one bean accession but many stem lesions on another. Lesion size was not strongly correlated with the other measures of disease. Resistant accessions had longer incubation periods, fewer total lesions and fewer pycnidia-producing lesions than susceptible accessions. The 8 isolates on the 8 bean accessions showed 7 distinct patterns of resistance. The results showed that in southern Australia, A. fabae exhibited great variability which was incompatible with classification into biologically meaningful pathotypes.
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10

Macfarlane, Terry D., and John G. Conran. "Lomandra marginata (Asparagaceae), a shy-flowering new species from south-western Australia." Australian Systematic Botany 27, no. 6 (2014): 421. http://dx.doi.org/10.1071/sb14045.

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Lomandra marginata T.D.Macfarl. & Conran is described as a new species and illustrated by photographs and a distribution map. Recognised initially from vegetative plants during a biological survey at Lochada Station, it was realised subsequently that the species is widespread from Geraldton to Corrigin. However, it apparently flowers only occasionally under favourable conditions, so earlier collections were mostly vegetative. Lomandra marginata is placed in L. series Sparsiflorae on the basis of possessing a narrow floral bract that does not encircle the pedicel and a bracteole, when present, offset rather than opposite the bract. It has distinctive membranous leaf margins resembling those of the related genus Chamaexeros and the longest pedicels in the genus, mostly 10–16mm long, on which are borne white flowers resembling those of L. effusa (Lindl.) Ewart. Although L. effusa is the most similar species in flower and inflorescence and is also a member of L. series Sparsiflorae, it differs vegetatively by having distinctly two-toothed leaf tips.
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Books on the topic "Plants – Catalogs and collections – Australia"

1

Clements, J. C. The Australian lupin collection: Passport data for wild and semi-domesticated accessions introduced into Australia to 1990. Edited by Cowling W. A. 1954- and Johnston D. A. W. [Perth]: Dept. of Agriculture, Western Australia, 1990.

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Clements, J. C. 1991 catalogue of the Australian lupin collection: Including field evaluation data for wild, semi-domesticated and fully domesticated accessions. Edited by Crowling W. A. 1954- and Johnston D. A. W. [Perth]: Dept. of Agriculture, Western Australia, 1991.

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Australia, National Library of. Guide to microform research collections in the National Library of Australia. Canberra: The Library, 1992.

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Botaanikaaed, Tallinna. Index plantarum: Catalogue of plant collections. Tallinn: Tallinn Botanic Garden, 1996.

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Kali, Mamotena. A check-list of plants in Lesotho herbaria. Roma, Lesotho: Herbarium and Botanic Garden of the Biology Dept., National University of Lesotho, 1985.

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A, Kostina V., and Poli͡arno-alʹpiĭskiĭ botanicheskiĭ sad-institut, eds. Katalog sosudistykh rasteniĭ territorii Poli͡arno-alʹpiĭskogo botanicheskogo sada. Apatity: Akademii͡a nauk SSSR, Kolʹskiĭ filial im. S.M. Kirova, Poli͡arno-alʹpiĭskiĭ botanicheskiĭ sad-institut, 1988.

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Australia, National Library of. Principal manuscript collections in the National Library of Australia. 3rd ed. Canberra: The Library, 1992.

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Project, Mount Cameroon. Medicinal plants of the Limbe Botanic Garden. Limbe, Cameroon: Mount Cameroon Project, 1995.

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(Singapore), Botanic Gardens. Checklist of cultivated plants. Singapore: National Parks Board, Singapore Botanic Gardens, 1995.

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Arboretum, Arnold. Plant inventory. Jamaica Plain, MA: Arnold Arboretum, 1990.

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