DOCSLIB.ORG

National Monitoring Program for Biodiversity and Non-Indigenous Species in Egypt

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

National monitoring program for biodiversity and non-indigenous species in Egypt January 2016 1 TABLE OF CONTENTS page Acknowledgements 3 Preamble 4 Chapter 1: Introduction 8 Overview of Egypt Biodiversity 37 Chapter 2: Institutional and regulatory aspects 39 National Legislations 39 Regional and International conventions and agreements 46 Chapter 3: Scientific Aspects 48 • Summary of Egyptian Marine Biodiversity Knowledge 48 • The Current Situation in Egypt 56 • Present state of Biodiversity knowledge 57 Chapter 4: Development of monitoring program 58 Introduction 58 Conclusions 103 Suggested Monitoring Program • Suggested monitoring program for habitat mapping 104 • Suggested marine MAMMALS monitoring program 109 • Suggested Marine Turtles Monitoring Program 115 • Suggested Monitoring Program for Seabirds 117 • Suggested Non-Indigenous Species Monitoring Program 121 Chapter 5: Implementation / Operational Plan 128 Selected References 130 Annexes 141 2 AKNOWLEGEMENTS 3 Preamble The Ecosystem Approach (EcAp) is a strategy for the integrated management of land, water and living resources that promotes conservation and sustainable use in an equitable way, as stated by the Convention of Biological Diversity. This process aims to achieve the Good Environmental Status (GES) through the elaborated 11 Ecological Objectives and their respective common indicators. Since 2008, Contracting Parties to the Barcelona Convention have adopted the EcAp and agreed on a roadmap for its implementation. First phases of the EcAp process led to the accomplishment of 5 steps of the scheduled 7-steps process such as: 1) Definition of an Ecological Vision for the Mediterranean; 2) Setting common Mediterranean strategic goals; 3) Identification of an important ecosystem properties and assessment of ecological status and pressures; 4) Development of a set of ecological objectives corresponding to the Vision and strategic goals; and 5) Derivation of operational objectives with indicators and target levels. The remaining 2 steps will include: 6) Revision of existing monitoring programs for ongoing assessment and regular updating of targets; and 7) Development and review of relevant action plans and programs. The following decisions were adopted by the Contracting Parties to the Barcelona Convention in order to achieve more effective ecosystems-based management in the Mediterranean: - Decisions IG.17/6: ‘’Implementation of the ecosystem approach to the management of human activities that may affect the Mediterranean marine and coastal environment‘’, adopted by Contracting Parties during the 15th COP (2008), - Decision IG.20/4: ‘’Implementing MAP ecosystem approach roadmap: Mediterranean Ecological and Operational Objectives, Indicators and Timetable for implementing the ecosystem approach roadmap‘’, adopted during the 17th COP (2012), - Decision IG.21/3: ‘’The Ecosystems Approach including adopting definitions of Good Environmental Status (GES) and targets‘’ adopted during the 18th COP (2013), - Decision IG.22/7: ‘’Integrated Monitoring and Assessment Program of the Mediterranean Sea and Coast and related assessment criteria (IMAP)‘’ adopted during the 19th COP (2016). The 19th Meeting of the Contracting Parties to the Barcelona Convention adopted the Integrated Monitoring and Assessment Program (IMAP), through a participatory process involving Contracting Parties and the scientific community in line with the Decision IG. 21/3. In order to implement the EcAp in synergy with the Marine Strategy Framework Directive (MSFD), the European Union (EU) is supporting the Southern Mediterranean Contracting Parties to the Barcelona Convention through financing the EcAp-MED II project (Mediterranean implementation of the Ecosystem Approach, in coherence with the EU MSFD). 4 In light of this, SPA/RAC is committed to assist the Southern Mediterranean countries in the development of national monitoring programs related to biodiversity (EO1) and NIS (EO2)‘’, in line with the IMAP requirements. Objective of the assignment The objective of this assignment is to develop the national monitoring program for biodiversity (EO1) and non-indigenous species (EO2) in Egypt. The national monitoring program must include at least the following sections: - Representative areas/sites to be monitored - National reference list of habitats, species and invasive alien species to be monitored - Monitoring program by common indicator: a. Habitat distributional range b. Condition of the habitat’s typical species and communities c. Species distributional range o Marine mammals o Seabirds o Marine reptiles d. Population abundance o Marine mammals o Seabirds o Marine reptiles e. Population demographic o Marine mammals o Seabirds o Marine reptiles f. Trends in abundance, temporal occurrence and spatial distribution of non-indigenous species (NIS) In order to ease the task on elaborating the national monitoring program, SPA/RAC will provide the following documents to the selected expert: - Guidelines for the development of the national monitoring program, - Table of contents of the national monitoring program, Tasks to be undertaken The consultant should work in close collaboration with the SPA/RAC Focal Point as well as the EcAp-MED II project officer and the national project coordinator. Regular communication and briefings on project progress are recommended. 5 The consultant is required to: - Develop a first draft of the ‘’National monitoring program for biodiversity and non-indigenous species in Egypt‘’, according to the documents provided by SPA/RAC and including the sections described in paragraph 2; - Provide an intermediate draft of the ‘’National monitoring program for Biodiversity and Non- Indigenous Species in Egypt‘’ based on comments made on the first draft by the National IMAP Committee 2 and the EcAp-MED II project officer; - Present the intermediate draft of the ‘’National monitoring program for Biodiversity and Non- Indigenous Species in Egypt‘’ during a national consultation workshop. - Elaborate the final version of the ‘’National monitoring program for biodiversity and non- indigenous species in Egypt‘’ taking into consideration the comments made during the national consultation workshop on the intermediate draft. Deliverables 1. First draft of ‘’National monitoring program for biodiversity and non-indigenous species in Egypt‘’; 2. Intermediate draft of the ‘’National monitoring program for Biodiversity and Non-Indigenous Species in Egypt‘’; 3. Final version of the ‘’National monitoring program for biodiversity and non-indigenous species in Egypt‘’. Duration of the assignment The elaboration of ‘’National monitoring program for biodiversity and non-indigenous species in Egypt‘’ will be conducted for a fixed period of fifteen (15) working days. It will start immediately after signing the contract, and long until the provision of the final version based on the comments made on the first draft of the document. Approach The Integrated Monitoring and Assessment Program (IMAP) of the Mediterranean Sea and Coast and related Assessment Criteria was carefully studied to develop the national monitoring program for marine biodiversity and non-indigenous species in Egypt. Similarly, all relevant decisions (IG.1716; IG.2014; IG.21/3 and IG.22.7) that were adopted by the contracting parties to the Barcelona Convention (2008 – 2016) were examined to achieve more effective ecosystems-based management in the Mediterranean. Marine monitoring programs of several countries and regions were reviewed to be considered in the Egyptian monitoring programs. Furthermore, personal contacts with marine monitoring experts were made to provide advice on the Egyptian monitoring program. This has led to a better understanding of the requirements for the monitoring program in terms of what is needed to be done, consultation with different stakeholders (academics, institutions, managers and others), available literature on monitoring of marine and coastal biodiversity, both regionally and internationally. Current state of knowledge of marine biodiversity in Egypt was collected from numerous sources such as SAPBIO, national reports to biodiversity related conventions such as CBD, RAMSAR, 6 CMS, CITES, annual reports of Nature Conservation Sector (NCS) of the Egyptian Environmental Affairs Agency (EEAA), recent relevant literature on the marine and coastal biodiversity in the Egyptian Mediterranean. The national monitoring program for biodiversity (EQ1) and non-indigenous species (EQ2) in Egypt is based on guidelines for the development of the national monitoring program provided by RAC/SPA, published works of RAC/SPA for habitat distribution range, species distribution range, population abundance and population demographics of marine mammals, seabirds and marine reptiles, as well as trends in abundance, temporal occurrence and spatial distribution of non- indigenous species (NIS). It was modified, when possible, based on monitoring programs of some countries and regions. This report has followed table of contents of the national monitoring program provided by RAC/SPA secretariat. 7 CHAPTER 1 Introduction The Mediterranean Basin is one of the most highly valued seas in the world. The region comprises a vast set of coastal and marine ecosystems that deliver valuable benefits to all its coastal inhabitants, including brackish water lagoons, estuaries, or transitional areas; coastal plains; wetlands; rocky shores and nearshore coastal areas; seagrass meadows; coralligenous communities; frontal systems and upwellings;
Recommended publications
  • National Monitoring Program for Biodiversity and Non-Indigenous Species in Egypt

    National Monitoring Program for Biodiversity and Non-Indigenous Species in Egypt

    UNITED NATIONS ENVIRONMENT PROGRAM MEDITERRANEAN ACTION PLAN REGIONAL ACTIVITY CENTRE FOR SPECIALLY PROTECTED AREAS National monitoring program for biodiversity and non-indigenous species in Egypt PROF. MOUSTAFA M. FOUDA April 2017 1 Study required and financed by: Regional Activity Centre for Specially Protected Areas Boulevard du Leader Yasser Arafat BP 337 1080 Tunis Cedex – Tunisie Responsible of the study: Mehdi Aissi, EcApMEDII Programme officer In charge of the study: Prof. Moustafa M. Fouda Mr. Mohamed Said Abdelwarith Mr. Mahmoud Fawzy Kamel Ministry of Environment, Egyptian Environmental Affairs Agency (EEAA) With the participation of: Name, qualification and original institution of all the participants in the study (field mission or participation of national institutions) 2 TABLE OF CONTENTS page Acknowledgements 4 Preamble 5 Chapter 1: Introduction 9 Chapter 2: Institutional and regulatory aspects 40 Chapter 3: Scientific Aspects 49 Chapter 4: Development of monitoring program 59 Chapter 5: Existing Monitoring Program in Egypt 91 1. Monitoring program for habitat mapping 103 2. Marine MAMMALS monitoring program 109 3. Marine Turtles Monitoring Program 115 4. Monitoring Program for Seabirds 118 5. Non-Indigenous Species Monitoring Program 123 Chapter 6: Implementation / Operational Plan 131 Selected References 133 Annexes 143 3 AKNOWLEGEMENTS We would like to thank RAC/ SPA and EU for providing financial and technical assistances to prepare this monitoring programme. The preparation of this programme was the result of several contacts and interviews with many stakeholders from Government, research institutions, NGOs and fishermen. The author would like to express thanks to all for their support. In addition; we would like to acknowledge all participants who attended the workshop and represented the following institutions: 1.
  • High Level Environmental Screening Study for Offshore Wind Farm Developments – Marine Habitats and Species Project

    High Level Environmental Screening Study for Offshore Wind Farm Developments – Marine Habitats and Species Project

    High Level Environmental Screening Study for Offshore Wind Farm Developments – Marine Habitats and Species Project AEA Technology, Environment Contract: W/35/00632/00/00 For: The Department of Trade and Industry New & Renewable Energy Programme Report issued 30 August 2002 (Version with minor corrections 16 September 2002) Keith Hiscock, Harvey Tyler-Walters and Hugh Jones Reference: Hiscock, K., Tyler-Walters, H. & Jones, H. 2002. High Level Environmental Screening Study for Offshore Wind Farm Developments – Marine Habitats and Species Project. Report from the Marine Biological Association to The Department of Trade and Industry New & Renewable Energy Programme. (AEA Technology, Environment Contract: W/35/00632/00/00.) Correspondence: Dr. K. Hiscock, The Laboratory, Citadel Hill, Plymouth, PL1 2PB. [email protected] High level environmental screening study for offshore wind farm developments – marine habitats and species ii High level environmental screening study for offshore wind farm developments – marine habitats and species Title: High Level Environmental Screening Study for Offshore Wind Farm Developments – Marine Habitats and Species Project. Contract Report: W/35/00632/00/00. Client: Department of Trade and Industry (New & Renewable Energy Programme) Contract management: AEA Technology, Environment. Date of contract issue: 22/07/2002 Level of report issue: Final Confidentiality: Distribution at discretion of DTI before Consultation report published then no restriction. Distribution: Two copies and electronic file to DTI (Mr S. Payne, Offshore Renewables Planning). One copy to MBA library. Prepared by: Dr. K. Hiscock, Dr. H. Tyler-Walters & Hugh Jones Authorization: Project Director: Dr. Keith Hiscock Date: Signature: MBA Director: Prof. S. Hawkins Date: Signature: This report can be referred to as follows: Hiscock, K., Tyler-Walters, H.
  • New Evidence of Marine Fauna Tropicalization Off the 3 Southwestern Iberian Peninsula

    New Evidence of Marine Fauna Tropicalization Off the 3 Southwestern Iberian Peninsula

    Preprints (www.preprints.org) | NOT PEER-REVIEWED | Posted: 27 February 2019 doi:10.20944/preprints201902.0249.v1 Peer-reviewed version available at Diversity 2019, 11, 48; doi:10.3390/d11040048 1 Communication 2 New evidence of marine fauna tropicalization off the 3 southwestern Iberian Peninsula 4 João Encarnação 1,*, Pedro Morais 2, Vânia Baptista 1, Joana Cruz 1 and Maria Alexandra Teodósio 1 5 6 1 CCMAR – Centre of Marine Sciences, University of Algarve, Campus de Gambelas, 8005-139 7 Faro, Portugal; [email protected] (J.E); [email protected] (V.B.); [email protected] (J.C.); 8 [email protected] (M.A.T.) 9 2 Department of Environmental Science, Policy, and Management, Mulford Hall, University of 10 California, Berkeley, Berkeley, CA 94720, USA; [email protected] (P.M.) 11 * Correspondence: [email protected] 12 13 14 15 Abstract: Climate change and the overall increase of seawater temperature is causing a poleward 16 shift in species distribution, which includes a phenomenon described as tropicalization of temperate 17 regions. This work aims at reporting the first records of four species off the southwestern Iberian 18 Peninsula, namely oceanic puffer Lagocephalus lagocephalus Linnaeus, 1758, Madeira rockfish 19 Scorpaena maderensis Valenciennes, 1833, ornate wrasse Thalassoma pavo Linnaeus, 1758, and bearded 20 fireworm Hermodice carunculata Pallas, 1766. These last three species, along with other occurrences of 21 aquatic fauna and flora along the Portuguese coast, reveal an ongoing process of poleward expansion 22 of several species for which a comprehensive survey along the entire Iberian Peninsula is urgent. The 23 putative origins of these subtropical and tropical species off continental Portugal are discussed, as 24 well as the urgent need of public awareness due to potential health risks resulting from the toxicity 25 of two of the four species reported in this paper.
  • Primeras Páginas 3 Copia.Qxp

    Primeras Páginas 3 Copia.Qxp

    Astroides.qxp 14/6/12 09:49 Página 207 Graellsia, 68(1): 207-218 enero-junio 2012 ISSN: 0367-5041 doi:10.3989/graellsia.2012.v68.057 SLIGHT GENETIC DIFFERENTIATION BETWEEN WESTERN AND EASTERN LIMITS OF ASTROIDES CALYCULARIS (PALLAS, 1776) (ANTHOZOA, SCLERACTINIA, DENDROPHYLLIIDAE) DISTRIBUTION INFERRED FROM COI AND ITS SEQUENCES P. Merino-Serrais1, P. Casado-Amezúa1, Ó. Ocaña2, J. Templado1 & A. Machordom1* ABSTRACT P. Merino-Serrais, P. Casado-Amezúa, Ó. Ocaña, J. Templado & A. Machordom. 2012. Slight genetic differentiation between western and eastern limits of Astroides calycularis (Pallas, 1776) (Anthozoa, Scleractinia, Dendrophylliidae) distribution inferred from COI and ITS sequences. Graellsia, 68(1): 207-218. Understanding population genetic structure and differentiation among populations is use- ful for the elaboration of management and conservation plans of threatened species. In this study, we use nuclear and mitochondrial markers (internal transcribed spacers -ITS and cytochrome oxidase subunit one -COI) for phylogenetics and nested clade analyses (NCA), thus providing the first assessment of the genetic structure of the threatened Mediterranean coral Astroides calycularis (Pallas, 1766), based on samples from 12 localities along its geo- graphic distribution range. Overall, we found no population differentiation in the westernmost region of the Mediterranean; however, a slight differentiation was observed when comparing this region with the Tyrrhenian and Algerian basins. Keywords: Threatened coral; population genetic structure; Mediterranean Sea. RESUMEN P. Merino-Serrais, P. Casado-Amezúa, Ó. Ocaña, J. Templado & A. Machordom. 2012. Leve diferenciación genética entre los límites occidental y oriental de distribución de Astroides calycularis (Pallas, 1776) (Anthozoa, Scleractinia, Dendrophylliidae), inferida a partir de secuencias de COI e ITS.
  • Microbiomes of Gall-Inducing Copepod Crustaceans from the Corals Stylophora Pistillata (Scleractinia) and Gorgonia Ventalina

    Microbiomes of Gall-Inducing Copepod Crustaceans from the Corals Stylophora Pistillata (Scleractinia) and Gorgonia Ventalina

    www.nature.com/scientificreports OPEN Microbiomes of gall-inducing copepod crustaceans from the corals Stylophora pistillata Received: 26 February 2018 Accepted: 18 July 2018 (Scleractinia) and Gorgonia Published: xx xx xxxx ventalina (Alcyonacea) Pavel V. Shelyakin1,2, Sofya K. Garushyants1,3, Mikhail A. Nikitin4, Sofya V. Mudrova5, Michael Berumen 5, Arjen G. C. L. Speksnijder6, Bert W. Hoeksema6, Diego Fontaneto7, Mikhail S. Gelfand1,3,4,8 & Viatcheslav N. Ivanenko 6,9 Corals harbor complex and diverse microbial communities that strongly impact host ftness and resistance to diseases, but these microbes themselves can be infuenced by stresses, like those caused by the presence of macroscopic symbionts. In addition to directly infuencing the host, symbionts may transmit pathogenic microbial communities. We analyzed two coral gall-forming copepod systems by using 16S rRNA gene metagenomic sequencing: (1) the sea fan Gorgonia ventalina with copepods of the genus Sphaerippe from the Caribbean and (2) the scleractinian coral Stylophora pistillata with copepods of the genus Spaniomolgus from the Saudi Arabian part of the Red Sea. We show that bacterial communities in these two systems were substantially diferent with Actinobacteria, Alphaproteobacteria, and Betaproteobacteria more prevalent in samples from Gorgonia ventalina, and Gammaproteobacteria in Stylophora pistillata. In Stylophora pistillata, normal coral microbiomes were enriched with the common coral symbiont Endozoicomonas and some unclassifed bacteria, while copepod and gall-tissue microbiomes were highly enriched with the family ME2 (Oceanospirillales) or Rhodobacteraceae. In Gorgonia ventalina, no bacterial group had signifcantly diferent prevalence in the normal coral tissues, copepods, and injured tissues. The total microbiome composition of polyps injured by copepods was diferent.
  • 1 Present Facilities, Equipment and Natural Condition

    1 Present Facilities, Equipment and Natural Condition

    Chapter 1 Present facilities, equipment and natural condition 1.1 The Canal The Suez Canal is a waterway of 162.25km in length, which bridges the Mediterranean Sea and the Red Sea. North and South Approaches are set at both ends of the Canal. Timsah Lake, the Great Bitter Lake and the Little Bitter Lake are situated along the Canal. Layout of the Canal is shown in Figure 1.1.1. Table 1.1.1 Outline of the Suez Canal Overall length 190.250km From Port Said to Port Tewfic 162.250km From Port Said to Ismailia 78.500km From Ismailia to Port Tewfic 83.750km From the fairway buoy to Port Said lighthouse 19.500km From the waiting area to the southern entrance 15.000km The length of doubled parts 78.000km Width at water level (North/South) 345/280m Width between buoys (North/South) 210/180m Maximum permissible draught for ships 58ft Cross section area (North/South) 4,500/3,900m2 Being increased 4,700/4,000m2 Permissible speed for tankers group 11-15km/hr for other vessels 13-16km/hr Source) SCA Table 1.1.2 Historical Progress of the Suez Canal Item 1869 1956 1962 1980 1994 1996 2000 Overall Length (km) 164 175 175 190.25 190.25 190.25 190.25 Doubled Parts (km) - 29 29 78 78 78 78 Width at 11m depth (m) - 60 90 160 210/180 210/180 210/200 Water Depth (m) 10 14 15.5 19.5 20.5 21 21 Max. Draft of Ship (feet) 22 35 38 53 56 58 58 Cross Section Area (m2) 304 1,100 1,800 3,600 4,300 4,500 4,500 /3,800 /3,900 /4,100 Max.
  • IMAP), As Presented in Annex to This Decision; 2

    IMAP), As Presented in Annex to This Decision; 2

    UNEP(DEPI)/MED IG.22/28 Page 419 Decision IG.22/7 Integrated Monitoring and Assessment Programme of the Mediterranean Sea and Coast and Related Assessment Criteria The 19th Meeting of the Contracting Parties to the Convention for the Protection of the Marine Environment and the Coastal Region of the Mediterranean, hereinafter referred to as “the Barcelona Convention”, Recalling Decision IG.17/6 of the 15th Meeting of the Contracting Parties providing for “A healthy Mediterranean with marine and coastal ecosystems that are productive and biologically diverse for the benefit of present and future generations”and the 7 steps roadmap for the implementation of the ecoystem approach, including on monitoring; Recalling Decision IG. 20/4 of the 17th Meeting of the Contracting Parties and Decision IG. 21/3 of the 18th Meeting of the Contracting Parties on the ecosystem approach; Recalling Article 12 of the Barcelona Convention and relevant provisions from its Protocols such as Articles8 and 13 of the Protocol for the Protection of the Mediterranean Sea against Pollution from Land-Based Sources and Activities; Article 5 of the Protocol Concerning Cooperation in Preventing Pollution from Ships and, in Cases of Emergency, Combating Pollution of the Mediterranean Sea; Articles 3, 15 and 20 of the Protocol Concerning Specially Protected Areas and Biological Diversity in the Mediterranean; and Article 16 of the Protocol on Integrated Coastal Zone Management in the Mediterranean; Having considered the reports of the Correspondence Groups on Monitoring and on Good Environmental Status and Targets, as well as of the Ecosystem Approach Coordination Group Meetings; Appreciating the support of donors and contribution of competent partner organizations in the development of the Integrated Monitoring and Assessment Programme of the Mediterranean Sea and Coast and Related Assessment Criteria; 1.
  • Checklists of Crustacea Decapoda from the Canary and Cape Verde Islands, with an Assessment of Macaronesian and Cape Verde Biogeographic Marine Ecoregions

    Checklists of Crustacea Decapoda from the Canary and Cape Verde Islands, with an Assessment of Macaronesian and Cape Verde Biogeographic Marine Ecoregions

    Zootaxa 4413 (3): 401–448 ISSN 1175-5326 (print edition) http://www.mapress.com/j/zt/ Article ZOOTAXA Copyright © 2018 Magnolia Press ISSN 1175-5334 (online edition) https://doi.org/10.11646/zootaxa.4413.3.1 http://zoobank.org/urn:lsid:zoobank.org:pub:2DF9255A-7C42-42DA-9F48-2BAA6DCEED7E Checklists of Crustacea Decapoda from the Canary and Cape Verde Islands, with an assessment of Macaronesian and Cape Verde biogeographic marine ecoregions JOSÉ A. GONZÁLEZ University of Las Palmas de Gran Canaria, i-UNAT, Campus de Tafira, 35017 Las Palmas de Gran Canaria, Spain. E-mail: [email protected]. ORCID iD: 0000-0001-8584-6731. Abstract The complete list of Canarian marine decapods (last update by González & Quiles 2003, popular book) currently com- prises 374 species/subspecies, grouped in 198 genera and 82 families; whereas the Cape Verdean marine decapods (now fully listed for the first time) are represented by 343 species/subspecies with 201 genera and 80 families. Due to changing environmental conditions, in the last decades many subtropical/tropical taxa have reached the coasts of the Canary Islands. Comparing the carcinofaunal composition and their biogeographic components between the Canary and Cape Verde ar- chipelagos would aid in: validating the appropriateness in separating both archipelagos into different ecoregions (Spalding et al. 2007), and understanding faunal movements between areas of benthic habitat. The consistency of both ecoregions is here compared and validated by assembling their decapod crustacean checklists, analysing their taxa composition, gath- ering their bathymetric data, and comparing their biogeographic patterns. Four main evidences (i.e. different taxa; diver- gent taxa composition; different composition of biogeographic patterns; different endemicity rates) support that separation, especially in coastal benthic decapods; and these parametres combined would be used as a valuable tool at comparing biotas from oceanic archipelagos.
  • First Record of the Irregular Sea Urchin Lovenia Cordiformis (Echinodermata: Spatangoida: Loveniidae) in Colombia C

    First Record of the Irregular Sea Urchin Lovenia Cordiformis (Echinodermata: Spatangoida: Loveniidae) in Colombia C

    Muñoz and Londoño-Cruz Marine Biodiversity Records (2016) 9:67 DOI 10.1186/s41200-016-0022-9 RECORD Open Access First record of the irregular sea urchin Lovenia cordiformis (Echinodermata: Spatangoida: Loveniidae) in Colombia C. G. Muñoz1* and E. Londoño-Cruz1,2 Abstract Background: A first record of occurrence of the irregular sea urchin Lovenia cordiformis in the Colombian Pacific is herein reported. Results: We collected one specimen of Lovenia cordiformis at Gorgona Island (Colombia) in a shallow sandy bottom next to a coral reef. Basic morphological data and images of the collected specimen are presented. The specimen now lies at the Echinoderm Collection of the Marine Biology Section at Universidad del Valle (Cali, Colombia; Tag Code UNIVALLE: CRBMeq-UV: 2014–001). Conclusions: This report fills a gap in and completes the distribution of the species along the entire coast of the Panamic Province in the Tropical Eastern Pacific, updating the echinoderm richness for Colombia to 384 species. Keywords: Lovenia cordiformis, Loveniidae, Sea porcupine, Heart urchin, Gorgona Island Background continental shelf of the Pacific coast of Colombia, filling Heart shape-bodied sea urchins also known as sea por- in a gap of its coastal distribution in the Tropical Eastern cupines (family Loveniidae), are irregular echinoids char- Pacific (TEP). acterized by its secondary bilateral symmetry. Unlike most sea urchins, features of the Loveniidae provide dif- Materials and methods ferent anterior-posterior ends, with mouth and anus lo- One Lovenia cordiformis specimen was collected on cated ventrally and distally on an oval-shaped horizontal October 19, 2012 by snorkeling during low tide at ap- plane.
  • Appendix 1 : Marine Habitat Types Definitions. Update Of

    Appendix 1 : Marine Habitat Types Definitions. Update Of

    Appendix 1 Marine Habitat types definitions. Update of “Interpretation Manual of European Union Habitats” COASTAL AND HALOPHYTIC HABITATS Open sea and tidal areas 1110 Sandbanks which are slightly covered by sea water all the time PAL.CLASS.: 11.125, 11.22, 11.31 1. Definition: Sandbanks are elevated, elongated, rounded or irregular topographic features, permanently submerged and predominantly surrounded by deeper water. They consist mainly of sandy sediments, but larger grain sizes, including boulders and cobbles, or smaller grain sizes including mud may also be present on a sandbank. Banks where sandy sediments occur in a layer over hard substrata are classed as sandbanks if the associated biota are dependent on the sand rather than on the underlying hard substrata. “Slightly covered by sea water all the time” means that above a sandbank the water depth is seldom more than 20 m below chart datum. Sandbanks can, however, extend beneath 20 m below chart datum. It can, therefore, be appropriate to include in designations such areas where they are part of the feature and host its biological assemblages. 2. Characteristic animal and plant species 2.1. Vegetation: North Atlantic including North Sea: Zostera sp., free living species of the Corallinaceae family. On many sandbanks macrophytes do not occur. Central Atlantic Islands (Macaronesian Islands): Cymodocea nodosa and Zostera noltii. On many sandbanks free living species of Corallinaceae are conspicuous elements of biotic assemblages, with relevant role as feeding and nursery grounds for invertebrates and fish. On many sandbanks macrophytes do not occur. Baltic Sea: Zostera sp., Potamogeton spp., Ruppia spp., Tolypella nidifica, Zannichellia spp., carophytes.
  • The Reproduction of the Red Sea Coral Stylophora Pistillata

    The Reproduction of the Red Sea Coral Stylophora Pistillata

    MARINE ECOLOGY PROGRESS SERIES Vol. 1, 133-144, 1979 - Published September 30 Mar. Ecol. Prog. Ser. The Reproduction of the Red Sea Coral Stylophora pistillata. I. Gonads and Planulae B. Rinkevich and Y.Loya Department of Zoology. The George S. Wise Center for Life Sciences, Tel Aviv University. Tel Aviv. Israel ABSTRACT: The reproduction of Stylophora pistillata, one of the most abundant coral species in the Gulf of Eilat, Red Sea, was studied over more than two years. Gonads were regularly examined using histological sections and the planula-larvae were collected in situ with plankton nets. S. pistillata is an hermaphroditic species. Ovaries and testes are situated in the same polyp, scattered between and beneath the septa and attached to them by stalks. Egg development starts in July preceding the spermaria, which start to develop only in October. A description is given on the male and female gonads, their structure and developmental processes. During oogenesis most of the oocytes are absorbed and usually only one oocyte remains in each gonad. S. pistillata broods its eggs to the planula stage. Planulae are shed after sunset and during the night. After spawning, the planula swims actively and changes its shape frequently. A mature planula larva of S. pistillata has 6 pairs of complete mesenteries (Halcampoides stage). However, a wide variability in developmental stages exists in newly shed planulae. The oral pole of the planula shows green fluorescence. Unique organs ('filaments' and 'nodules') are found on the surface of the planula;
  • The Forgotten Fronts the First World War Battlefield Guide: World War Battlefield First the the Forgotten Fronts Forgotten The

    The Forgotten Fronts the First World War Battlefield Guide: World War Battlefield First the the Forgotten Fronts Forgotten The

    Ed 1 Nov 2016 1 Nov Ed The First World War Battlefield Guide: Volume 2 The Forgotten Fronts The First Battlefield War World Guide: The Forgotten Fronts Creative Media Design ADR005472 Edition 1 November 2016 THE FORGOTTEN FRONTS | i The First World War Battlefield Guide: Volume 2 The British Army Campaign Guide to the Forgotten Fronts of the First World War 1st Edition November 2016 Acknowledgement The publisher wishes to acknowledge the assistance of the following organisations in providing text, images, multimedia links and sketch maps for this volume: Defence Geographic Centre, Imperial War Museum, Army Historical Branch, Air Historical Branch, Army Records Society,National Portrait Gallery, Tank Museum, National Army Museum, Royal Green Jackets Museum,Shepard Trust, Royal Australian Navy, Australian Defence, Royal Artillery Historical Trust, National Archive, Canadian War Museum, National Archives of Canada, The Times, RAF Museum, Wikimedia Commons, USAF, US Library of Congress. The Cover Images Front Cover: (1) Wounded soldier of the 10th Battalion, Black Watch being carried out of a communication trench on the ‘Birdcage’ Line near Salonika, February 1916 © IWM; (2) The advance through Palestine and the Battle of Megiddo: A sergeant directs orders whilst standing on one of the wooden saddles of the Camel Transport Corps © IWM (3) Soldiers of the Royal Army Service Corps outside a Field Ambulance Station. © IWM Inside Front Cover: Helles Memorial, Gallipoli © Barbara Taylor Back Cover: ‘Blood Swept Lands and Seas of Red’ at the Tower of London © Julia Gavin ii | THE FORGOTTEN FRONTS THE FORGOTTEN FRONTS | iii ISBN: 978-1-874346-46-3 First published in November 2016 by Creative Media Designs, Army Headquarters, Andover.