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Adaptation Diagram Brisbane Lilybelgium Avicennia marina. Avicennia marina, commonly known as grey mangrove or white mangrove, is a species of mangrove tree classified in the plant family Acanthaceae (formerly in the Verbenaceae or Avicenniaceae). As with other mangroves, it occurs in the intertidal zones of estuarine areas. 0 2.0 4.0 6.0 8.0 10.0 20.0m 0 2.0 4.0 6.0 8.0 10.0 20.0m Concept illustration - Concept illustration - Sydney Street Ferry Termina roof plan Sydney Street Ferry Terminal landscape plan Adaptation Diagram Brisbane LilyBelgium. Meise. National Botanic Garden.Proiphys amboinensis The genus Proiphys belongs to the Liliaceae family and comprises three species, P. alba, P. amboinensis and P. cunninghamii. The genus was known as Eurycles for many years. These plants occur in light shaded areas of the rainforest or in open forest bordering rainforest regions, extending beyond Australia to South-East Asia. 2 2 The Regatta Terminal 3 North Quay (1) Terminal 5 River Plaza Terminal 6 Holman Street Terminal 3 4 6 7 1 University of Queensland Terminal 1 5 a b Diagram Legend Single Floating Pontoon - Dual Berthing Waiting area with Go-Card activation and integrated signage Waiting Area with Furniture, drinking water and signage Opportunity for rainwater tank Potential location for City Cycle docking station Existing Building Retained Seating nook overlooking Brisbane River Retractable debris screen Vehicle set down area Inclinator Gangway Existing Gangway Vertical Lift (Not within current scope of this project) Existing Cycle and Pedestrian Paths upgraded in compliance with AS 1428 Driver Amenities Pavilion with Toilet and Handwashing facilities 7 Sydney Street Terminal 4 (QUT) Gardens Point Terminal a University of Queensland (Mooring) b Dutton Park Terminal (Mooring) 1 Sydney Street 2 QUT Sydney street during the day “We lay in open ground near the 1. Maximise use of existing structures. 2. Simple, direct, flexible equitable access. river, down New Farm way, among 3. Robust, simple flood damage mitigation. bamboos and mosquitoes... we 4. Simple, cost effective and time efficient flood + = watched the prawn fishers raise damage repair. 5. A distinctive poetic character which responds nets of intricate gold streaming to and is of the riverside/ waters edge location Public art and local narratives Brisbane Lily Ferry terminal fabric roof canopy against the candles. The nets and their role as part of a distinctive river transport experience. were on fire, they gushed with 6. A synthesis of architecture, landscape orange-gold, then only a few and engineering. tattered sparks welled from them. 7. Beyond a normalised sustainable design. + = eg. biomimicry/ authentic nature. Hidden in spikes of grass, we 8. An adaptable ‘system’ that allows a diverse heard the small sodden bumps of response to each place and provides for Framing Canopy Ferry terminal concept prefabrication and economy of scale. the prawns on the woodwork of 9. Part of a wider and integrated with an urban the flat boat.” design experience- buses, walking, taxis, Jack Lindsay, Life Rarely Tells bikes, dropoff, landscape, sightlines. 10.A safe, secure, friendly connected 6 Holman Street Terminal community place. Sydney street at night Bill Short Engineering & Project consultants.
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  • Avicennia Marina Mangrove Forest
    MARINE ECOLOGY PROGRESS SERIES Published June 6 Mar Ecol Prog Ser Resource competition between macrobenthic epifauna and infauna in a Kenyan Avicennia marina mangrove forest J. Schrijvers*,H. Fermon, M. Vincx University of Gent, Department of Morphology, Systematics and Ecology, Marine Biology Section, K.L. Ledeganckstraat 35, B-9000 Gent, Belgium ABSTRACT: A cage exclusion experiment was used to examine the interaction between the eplbenthos (permanent and vls~tlng)and the macroinfauna of a high intertidal Kenyan Avicennia marina man- grove sediment. Densities of Ollgochaeta (families Tubificidae and Enchytraeidae), Amphipoda, Insecta larvae, Polychaeta and macro-Nematoda, and a broad range of environmental factors were fol- lowed over 5 mo of caging. A significant increase of amphipod and insect larvae densities in the cages indicated a positive exclusion effect, while no such effect was observed for oligochaetes (Tubificidae in particular), polychaetes or macronematodes. Resource competitive interactions were a plausible expla- nation for the status of the amphipod community. This was supported by the parallel positive exclusion effect detected for microalgal densities. It is therelore hypothesized that competition for microalgae and deposited food sources is the determining structuring force exerted by the epibenthos on the macrobenthic infauna. However, the presence of epibenthic predation cannot be excluded. KEY WORDS: Macrobenthos . Infauna . Epibenthos - Exclusion experiment . Mangroves . Kenya INTRODUCTION tioned that these areas are intensively used by epiben- thic animals as feeding grounds, nursery areas and Exclusion experiments are a valuable tool for detect- shelters (Hutchings & Saenger 1987).In order to assess ing the influence of epibenthic animals on endobenthic the importance of the endobenthic community under communities.
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  • (Rhizophora Mucronata and Avicennia Marina): an Overview
    Advances in Biological Research 11 (4): 161-170, 2017 ISSN 1992-0067 © IDOSI Publications, 2017 DOI: 10.5829/idosi.abr.2017.161.170 Antihyperglycemic Properties of Mangrove Plants (Rhizophora mucronata and Avicennia marina): An Overview O.H. Aljaghthmi, H.M. Heba and I.M. Abu Zeid Department of Biological Sciences, Faculty of Sciences, King Abdulaziz University, P.O. Box 139109, Jeddah 21323, Saudi Arabia Abstract: The increased occurrences of diabetes have led to the utilization of the curative plants in search of the best remedies. The usage of medicinal plants has been embraced worldwide since it is a critical part of the public healthcare. Rhizophora mucronata and Avicenna marina are vulnerable plants that require protection for their continued significance in the cure of diabetes. The two plants have proved to be antiviral and antibacterial in nature. Traditionally, the Rhizophora mucronata and Avicenna marina were utilized to cure diabetes. Although there is tremendous progress in the diabetes cure through the oral hypoglycemic compounds, there is a consistent search for the newer medicines. Mostly these mangrove trees have antidiabetic activity despite the fact that they have not been accepted. However, the traditional medicine system has used such plants with success. This review showed some of the previous data on the Rhizophora mucronata and Avicenna marina that were tested on the rats in medical laboratories. Key words: Rhizophora mucronata Avicenna marina Diabetes Bioactive compounds. INTRODUCTION that the species have bioactive compounds potential for long-term treatment of diabetes and other significant The diabetes complications involve the retinal, renal disorders. The two plants are not directly consumed as and the cardiovascular complications.
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  • Spatial Structure and Genetic Variation of a Mangrove Species (Avicennia Marina (Forssk.) Vierh) in the Farasan Archipelago
    Article Spatial Structure and Genetic Variation of a Mangrove Species (Avicennia marina (Forssk.) Vierh) in the Farasan Archipelago Rahmah N. Al-Qthanin 1,* and Samah A. Alharbi 2 1 Biology Department, College of Sciences, King Khalid University, Abha 61421, Saudi Arabia 2 Biology Department, College of Applied Sciences, Umm-Al-Qura University, Makkah 21421, Saudi Arabia; [email protected] * Correspondence: [email protected] Received: 12 August 2020; Accepted: 18 November 2020; Published: 30 November 2020 Abstract: Avicennia marina (Forssk.) Vierh is distributed in patches along the Farasan archipelago coast and is the most common mangrove species in the Red Sea. However, to date, no studies have been directed towards understanding its genetic variation in the Farasan archipelago. In this investigation, genetic variations within and among natural populations of Avicennia marina in the Farasan archipelago were studied using 15 microsatellite markers. The study found 142 alleles on 15 loci in nine populations. The observed (Ho) and expected (He) heterozygosity values were 0.351 and 0.391, respectively, which are much lower than those of earlier studies on A. marina in the Arabian Gulf. An inbreeding effect from self-pollination might explain its heterozygote deficiency. Population genetic differentiation (FST = 0.301) was similar to other mangrove species. Our findings suggest that the sea current direction and coastal geomorphology might affect genetic dispersal of A. marina. The more isolated populations with fewer connections by sea currents exhibited lower genetic variation and differentiation between populations. The genetic clustering of populations fell into three main groups—Group 1 (populations of Farasan Alkabir Island), Group 2 (populations of Sajid Island), and Group 3 (mix of one population of Farasan Alkabir Island and a population of Zifaf Island).
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  • Native Plants Sixth Edition Sixth Edition AUSTRALIAN Native Plants Cultivation, Use in Landscaping and Propagation
    AUSTRALIAN NATIVE PLANTS SIXTH EDITION SIXTH EDITION AUSTRALIAN NATIVE PLANTS Cultivation, Use in Landscaping and Propagation John W. Wrigley Murray Fagg Sixth Edition published in Australia in 2013 by ACKNOWLEDGEMENTS Reed New Holland an imprint of New Holland Publishers (Australia) Pty Ltd Sydney • Auckland • London • Cape Town Many people have helped us since 1977 when we began writing the first edition of Garfield House 86–88 Edgware Road London W2 2EA United Kingdom Australian Native Plants. Some of these folk have regrettably passed on, others have moved 1/66 Gibbes Street Chatswood NSW 2067 Australia to different areas. We endeavour here to acknowledge their assistance, without which the 218 Lake Road Northcote Auckland New Zealand Wembley Square First Floor Solan Road Gardens Cape Town 8001 South Africa various editions of this book would not have been as useful to so many gardeners and lovers of Australian plants. www.newhollandpublishers.com To the following people, our sincere thanks: Steve Adams, Ralph Bailey, Natalie Barnett, www.newholland.com.au Tony Bean, Lloyd Bird, John Birks, Mr and Mrs Blacklock, Don Blaxell, Jim Bourner, John Copyright © 2013 in text: John Wrigley Briggs, Colin Broadfoot, Dot Brown, the late George Brown, Ray Brown, Leslie Conway, Copyright © 2013 in map: Ian Faulkner Copyright © 2013 in photographs and illustrations: Murray Fagg Russell and Sharon Costin, Kirsten Cowley, Lyn Craven (Petraeomyrtus punicea photograph) Copyright © 2013 New Holland Publishers (Australia) Pty Ltd Richard Cummings, Bert
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  • Phylogenetic Relationships Among the Mangrove Species of Acanthaceae Found in Indian Sundarban, As Revealed by RAPD Analysis
    Available online a t www.pelagiaresearchlibrary.com Pelagia Research Library Advances in Applied Science Research, 2015, 6(3):179-184 ISSN: 0976-8610 CODEN (USA): AASRFC Phylogenetic relationships among the mangrove species of Acanthaceae found in Indian Sundarban, as revealed by RAPD analysis Surya Shekhar Das 1, Swati Das (Sur) 2 and Parthadeb Ghosh* 1Department of Botany, Bolpur College, Birbhum, West Bengal, India 2Department of Botany, Nabadwip Vidyasagar College, Nadia, West Bengal, India _____________________________________________________________________________________________ ABSTRACT RAPD markers were successfully used to identify and differentiate all the five species of Acanthaceae found in the mangrove forest of Indian Sundarban, to assess the extent of interspecific genetic diversity among them, to reveal their molecular phylogeny and to throw some light on the systematic position of Avicennia. The dendrogram reveals that the five species under study exhibits an overall similarity of 60.7%. Avicennia alba and A. officinalis (cluster C1) have very close relationship between them and share a common node in the dendrogram at a 73.3% level of similarity. Avicennia marina and Acanthus ilicifolius (cluster C2) also have close relationship between them as evident by a common node in the dendrogram at 71.8% level of similarity. Acanthus volubilis showed 68.1% similarity with cluster C1 and 60.7% similarity with cluster C2. Our study also supported the view of placing Avicennia under Acanthaceae. Regarding the relative position of Avicennia within Acanthaceae, it was shown to be very close to Acanthoideae. In comparison to other species, A. marina showed most genetic variability, suggesting utilization of this species over others for breeding programme and as source material in in situ conservation programmes.
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  • Avicennia Marina: a Novel Convivial Phyto Medicine for Antibiotic Resistant Pathogenic Bacteria
    Open Access Journal of Biomedical Studies RESEARCH ARTICLE Avicennia Marina: A Novel Convivial Phyto Medicine for Antibiotic Resistant Pathogenic Bacteria Vibha Bhardwaj* Director Environment Laboratories, RAK Municipality, Ras Al Khaimah, United Arab Emirates *Corresponding author: Dr. Vibha Bhardwaj, Director Environment Laboratories, RAK Municipality, Ras Al Khaimah, United Arab Emirates, E-mail: [email protected] Citation: Vibha Bhardwaj (2021) Avicennia Marina: A Novel Convivial Phyto Medicine for Antibiotic Resistant Pathogenic Bacteria. J Biomed Stud 1: 101 Abstract This study investigated two different concentration of methanol extracts of the leaves of Avicennia marina against five human pathogenic bacteria, to determine their efficacy against multidrug resistant microbes. Powdered leaves of the tree were treated with two different concentration of methanol (10% w/v and 20% w/v) using hot extraction method. Crude methanol extracts of the leaves of Avicennia marina was investigated for their antibacterial activity against a wide range of bacteria (both gram-positive and gram-negative) by disc diffusion method. Multidrug resistant (MDR) strains of Bacillus subtilis (ATCC 6633), E. coli (ATCC 8739), Salmonella enterica (ATCC 14028), Staphylococcus aureus (ATCC 6538), Pseudomonas aeruginosa (ATCC 27853) were used in the study. Ciprofloxacin was used as standard. The antimicrobial activities of the crude extracts were increased with increasing the concentration. The methanolic leaves extracts of A. marina showed a remarkable inhibition of the microorganisms. The potency shown by these extracts recommends their use against multidrug resistant microorganisms. It is clear that n-hexane extract was the most effective extract. Additionally, Multidrug resistant (MDR) strains of E. coli, Bacillus subtilis and Staphylococcus aureus was strongly inhibited by both concentration of methanol extracts of A.
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    Seed Bank Strategies of Coastal Populations at the Arabian Sea Coast M. Ajmal Khan Bilquees Gul Abstract—Pure populations of halophytic shrubs (Suaeda fruticosa, Karachi, Pakistan, have demonstrated that dominant Cressa cretica, Arthrocnemum macrostachyum, Atriplex griffithii, perennial halophytic shrubs and grasses maintain a persis- etc.) and perennial grasses (Halopyrum mucronatum, Aeluropus tent seed bank (Gulzar and Khan 1994; Aziz and Khan lagopoides, etc.) dominate the vegetation of the Arabian Sea coast 1996). Six different coastal dune communities showed a –2 at Karachi, Pakistan. The coastal populations maintained a per- very small seed bank (30-260 seed m , Gulzar and Khan sistent seed bank. There is a close relationship between seed bank 1994), while coastal swamp communities had a larger seed –2 flora and existing vegetation. The size of the seed bank varies with bank (11,000 seed m ). The Cressa cretica seed bank at the species dominating the population. Arthrocnemum macro- Karachi showed a persistent seed bank (Aziz and Khan stachyum, which dominated the coastal swamps, had the highest 1996), with the number of seeds reaching its maximum –2 seed density, 940,000 seed m–2, followed by Halopyrum mucronatum, (2,500 seed m ) after dispersal and dropping down to 500 –2 which showed 75,000 seed m–2. For all other species (Suaeda fruti- seed m a few months later. Gul and Khan (1998) reported cosa, Cressa cretica, Atriplex griffithii, and Aeluropus lagopoides), that coastal swamps dominated by Arthrocnemum seed bank varies from 20,000 to 35,000 seed m–2. Seed bank of all macrostachyum showed a great deal of variation from upper species substantially reduced a few months after dispersal.
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  • Island Bats: Evolution, Ecology, and Conservation
    CHA P T E R 1 3 The Ecology and Conservation of Malagasy Bats Paul A. Racey, Steven M. Goodman, and Richard K. B. Jenkins Introduction Despite the important contribution that bats make to tropical biodiversity and ecosystem function, as well as the threatened status of many species, conserva­ tion initiatives for Madagascar’s endemic mammals have rarely included bats. Until recently, most mammalogical research in Madagascar concerned lemurs, rodents, and tenrecs. This focus resulted in a dearth of information on bat bi­ ology. However, since the mid­1990s considerable advancement has been made following the establishment of capacity­building programs for Malagasy bat biologists, and bats are now included in biodiversity surveys and a growing number of field studies are in progress. In this chapter we summarize the advances made in recent years in un­ derstanding the diversity of Malagasy bats and briefly describe their biogeo­ graphic affinities and levels of endemism. We draw attention to the importance of understanding the ecology of these animals and why this is a prerequisite to their conservation. In discussing monitoring and hunting, we highlight some of the reasons that make bat conservation notably different from other vertebrate conservation challenges on the island. The Diversity of Malagasy Bats The recent surge of interest in Malagasy bats has resulted in the discovery and description of nine new taxa on the island. The rate of new discoveries quickly makes statements on endemism and species richness out of date. For example, of the 37 bat taxa listed for Madagascar in table 13.1, only 29 were treated in the 2005 Global Mammal Assessment in Antananarivo.
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  • Scientific Note the Endangered Illidge's Ant Blue Butterfly (Acrodipsasillidgeo from an Intertidal Habitat Managed for Mosquito Control
    Journal of the American Mosquito Control Association, 2O(I):91-93,200'4 Copyright @ 2OO4 by the American Mosquito Conffol Association, Inc. SCIENTIFIC NOTE THE ENDANGERED ILLIDGE'S ANT BLUE BUTTERFLY (ACRODIPSASILLIDGEO FROM AN INTERTIDAL HABITAT MANAGED FOR MOSQUITO CONTROL M. J. BREITFUSST ,qNo P E. R. DALE' ABSTRACT. Acrodipsas illidgei is an endangered butterfly inhabiting mangrove forests in southeastern Queensland, Australia. Concern over the effects of mosquito control activities prompted a broad-scale survey for the species at Coomera Island, in southeastern Queensland. The butterfly was recorded on the edge of an old-growth mangrove forest in close proximity to mosquito control runnels. Other forms of mosquito control at Coomera Island are unlikely to impact on the species because of the mode of action of larvicides used and the fact larvae occur within ant colonies formed in hollow stems and branches of mangrove trees. Further studies are required to more fully understand the relationships between mosquito control activities and the population dynamics of endangered species such as A. illidgei. KEY WORDS Butterfly, Queensland, mangrove, mosquito control Environmental concern regarding the effects of and have rarely been observed in the wild because some mosquito control techniques on threatened of naturally low population numbers, the small size species has prompted debate at local, state, of adults, and flight activity (Braby 2000). national, and international forums. Of particular The aim of this paper is to discuss the habitat of concern in Australia has been the unsubstantiated A. illidgei at Coomera Island, an important nontarget threat to endangered species such as mosquito-breeding site that has experienced Illidge's ant blue butterfly (Acrodipsas illidgei mosquito control operations to reduce pest numbers (Waterhouse and Lyell)) from mosquito control for the past l8 years.
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  • Mangrove Wetlands
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  • The Chemical Investigations of the Mangrove Plant Avicennia Marina
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