macroalgae_Johor

Occurrence
Последняя версия опубликовано 1 марта 2022 г.
Дата публикации:
1 марта 2022 г.
Опубликовано:
No organisation
Лицензия:
CC0 1.0

Скачайте последнюю версию данных этого ресурса в формате Darwin Core Archive (DwC-A) или метаданных ресурса в форматах EML или RTF:

Данные в формате DwC-A Скачать 37 Записи в English (8 KB) - Частота обновления: unknown
Метаданные в формате EML Скачать в English (23 KB)
Метаданные в формате RTF Скачать в English (16 KB)

Описание

This data provides a description of the east coast shore of Peninsular Malaysia, specifically in Johor coast in 2015-2016. The spatial and temporal distribution and abundance of a total of 41 taxa were assessed at 4 monsoon-exposed locations.

Записи данных

Данные этого occurrence ресурса были опубликованы в виде Darwin Core Archive (DwC-A), который является стандартным форматом для обмена данными о биоразнообразии в виде набора из одной или нескольких таблиц. Основная таблица данных содержит 37 записей.

Данный экземпляр IPT архивирует данные и таким образом служит хранилищем данных. Данные и метаданные ресурсов доступны для скачивания в разделе Загрузки. В таблице версий перечислены другие версии ресурса, которые были доступны публично, что позволяет отслеживать изменения, внесенные в ресурс с течением времени.

Версии

В таблице ниже указаны только опубликованные версии ресурса, которые доступны для свободного скачивания.

Как оформить ссылку

Исследователи должны дать ссылку на эту работу следующим образом:

AlgaeBase. https://www.algaebase.org/search/species/detail/?species (Latest accessed date: 29 November 2021)

Права

Исследователи должны соблюдать следующие права:

Насколько это возможно по закону, издатель отказался от всех прав на эти данные и посвятил их Public Domain (CC0 1.0). Пользователи могут без ограничений копировать, изменять, распространять и использовать работу, в том числе в коммерческих целях.

Регистрация в GBIF

Этот ресурс не был зарегистрирован в GBIF

Ключевые слова

Occurrence; Specimen

Географический охват

Sampling was done along four major shore stretches of the entire coast of east Johor, covering approximately 180 km from Desaru to Mersing. The eastern coast of Johor extends approximately 175 km from Teluk Lipat (i.e. Lipat Bay) to the north, and Teluk Ramunia to the south.

Ограничивающие координаты Юг Запад [-90, -180], Север Восток [90, 180]

Таксономический охват

We report the identification of species belonging to family Rhodomelaceae, Lithophyllaceae, Corallinaceae, Pterocladiaceae, Gigartinaceae, Galaxauraceae, Gracilariaceae, Cystocloniaceae, Lomentariaceae, Dictyotaceae, Sargassaceae, Polyphysaceae, Caulerpaceae, Cladophoraceae, Boodleaceae, Ulvaceae, and Valoniaceae.

Genus Chaetomorpha Kützing, 1845
Species Caulerpa racemosa ((Forsskål) J.Agardh, 1873), Cladophoropsis membranacea ((Hofman Bang ex C.Agardh) Børgesen, 1905), Cladophora stimpsonii (Harvey, 1860), Cladophora vagabunda ((Linnaeus) Hoek, 1963), Valonia aegagropila (C.Agardh, 1823), Acetabularia acetabulum ((Linnaeus) P.C.Silva, 1952), Ulva clathrata ((Roth) C.Agardh, 1811), Ulva intestinalis (Linnaeus, 1753), Dictyopteris delicatula (J.V.Lamouroux, 1809), Canistrocarpus cervicornis ((Kützing) De Paula & De Clerck, 2006), Dictyota mertensii ((C.Martius) Kützing, 1859), Dictyota dichotoma ((Hudson) J.V.Lamouroux, 1809), Padina australis (Hauck, 1887), Padina boergesenii (Allender & Kraft, 1983), Padina minor (Yamada, 1925), Sargassum oligocystum (Montagne, 1845), Sargassum paniculatum (J. Agardh, 1848), Sargassum polycystum (C. Agardh, 1824), Sargassum microcystum (J.Agardh, 1848), Sargassum tenerrimum (J.Agardh, 1848), Acanthophora muscoides ((Linnaeus) Bory de Saint-Vincent, 1828), Acanthophora spicifera ((M.Vahl) Børgesen, 1910), Polysiphonia coacta (C.K.Tseng, 1944), Amphiroa fragilissima ((Linnaeus) J.V.Lamouroux, 1816), Jania adhaerens (J.V.Lamouroux, 1816), Pterocladiella caloglossoides ((M.Howe) Santelices, 1998), Chondrus crispus (Stackhouse, 1797), Hypnea cervicornis (J.Agardh, 1851), Hypnea spinella ((C.Agardh) Kützing, 1847), Gracilaria arcuata (Zanardini, 1858), Gracilaria bursa-pastoris ((S.G.Gmelin) P.C.Silva, 1952), Crassiphycus changii ((B.-M.Xia & I.A.Abbott) Gurgel, J.N.Norris & Fredericq, 2018), Gracilaria coronopifolia (J.Agardh, 1852), Gracilaria salicornia ((C.Agardh) E.Y.Dawson, 1954), Galaxaura rugosa ((J.Ellis & Solander) J.V.Lamouroux, 1816), Ceratodictyon intricatum ((C.Agardh) R.E.Norris, 1987)

Методы сбора

Sampling was done from January 2015 until February 2016 during the lowest tide of the month (Table 1). Transects were placed randomly, taken to represent the macroalgae cover and frequency at each site. The quadrats were placed alternately at every 1 meter of the 25-meter transect line. Initially, the macroalgae that were found inside the quadrat were recorded, identified and inventoried according to the type of species, percentage of cover and percentage of frequency (Table 2). The types of substratum attached by macroalgae were noted as representing the habitat specificity of the macroalgae (Table 3). The raw data of cover and frequency were calculated by multiplying the vertical count of every species to the five levels of multiplier and total number of sub-quadrat from the 9 transect lines with a total of 234 quadrats (Supplementary Table-S1, S2, S3 and S4). The cover of every species of macroalgae was then analysed by summing the percentage cover value of prostrate and erect parts of the macroalgae in each sub-quadrat (10cm × 10cm) after Saito and Atobe (1970) (Supplementary Table S5). The percentage frequency of macroalgae was obtained by calculating the total number of squares (qn) in which the species occurred, divided by the total number of small squares in the quadrat (= 25), and multiplied by 100 (Supplementary Table-S1, S2, S3 and S4).

Охват исследования Sampling activity was conducted in four locations in eastern Johor coastline: Pantai Pasir Lanun, Pulau Mawar, Telok Gorek and Tanjung Lompat (Figure 1). Pantai Pasir Lanun is located at the tip of a foreland with a relatively straight coastline, predominantly featuring hard substrates composed of large areas of coral rubble and boulders. Pulau Mawar is characterised by a shallow-elevated sandy terrain with small patches of mangrove trees and coral rubble. Telok Gorek is located within an indented bay, covered with mangrove trees and sheltered from the foreland. Tanjung Lompat consists of a foreland and an extensive bay, characterised by boulder-pebbles on the foreland and a shallow sandy bay.
Контроль качества All scientific names were morphologically identified according to Ismail (1995), Trono and Ganzon-Fortes (1988), Zainee et al. (2018), and Zainee et al. (2019a), and were further standardised according to AlgaeBase and The World Register of Marine Species (WoRMS).

Описание этапа методики:

  1. The step that led to the final release of the dataset were as follows: (1) In-situ identification of species and destructive collection for first-time observed samples and preservation in formaldehyde; (2) Non-destructive sampling (except for filamentous algae that need microscopic observation in the laboratory) at four study sites; (3) photography, sorting, cleaning and preparation of herbarium specimens; (4) conversion of paper-based records from the field and laboratory into an electronic data format (Excel spreadsheets); (5) organising of the datasets into a standardised format; (6) standardisation of taxonomy using the World Register of Marine Species; (8) export of data as a DarwinCore Archive and (9) generation of dataset-level metadata.

Данные коллекции

Название коллекции Plantae
Методы сохранения образцов Dried and pressed

Библиографические ссылки

  1. Ismail A (1995) Rumpai Laut Malaysia. Dewan Bahasa dan Pustaka, Kuala Lumpur
  2. Kendrick G, Harvey ES, Wernberg T, Harman N, Goldberg N (2004) The role of disturbance in maintaining diversity of benthic macroalgal assemblages in southwestern Australia. Journal of Phycolology 52: 5–9.
  3. Kim HH, Ko YW, Yang KM, Sung G, Kim JH (2017) Effects of disturbance timing on community recovery in an intertidal habitat of a Korean rocky shore. Algae 32 (4): 325–336. doi:10.4490/algae.2017.32.12.7.
  4. Kroeker KJ, Bell LE, Donham EM, Hoshijima U, Lummis S, Toy JA, Willis-Norton E (2020) Ecological change in dynamic environments: Accounting for temporal environmental variability in studies of ocean change biology. Global Change Biology 26 (1): 54–67. doi:10.1111/gcb.14868.
  5. Lindenmayer DB, Fischer J (2007) Tackling the habitat fragmentation panchreston. Trends in Ecology and Evolution 22 (3): 127–132. doi:10.1016/j.tree.2006.11.006.
  6. Prathep A, Mayakun J, Tantiprapas P, Darakrai A (2008) Can macroalgae recover 13 months after the 2004 Tsunami?: A case study at Talibong Island, Trang Province, Thailand. Journal of Applied Phycology 20: 907–914. doi:10.1007/978-1-4020-9619-8_55.
  7. Saito Y, Atobe S (1970) Phytosociological study of intertidal marine algae:I. Usujiri Benten-Jima, Hokkaido. Bulletin of the Faculty of Fisheries Hokkaido University 21 (2): 37–69.
  8. Satari SZ, Zubairi YZ, Hussin AG, Hassan SF (2015) Some statistical characteristic of Malaysian wind direction recorded at maximum wind speed: 1999-2008. Sains Malaysiana 44 (10): 1521–1530. doi:10.17576/jsm-2015-4410-18.
  9. Suding KN, Gross KL, Houseman GR (2004) Alternative states and positive feedbacks in restoration ecology. Trends in Ecology and Evolution 19: 46–53. doi:10.1016/j.tree.2003.10.005.
  10. Trono GC, Ganzon-Fortes E (1988) Philippine Seaweeds. National Book Store Inc, Manila.
  11. Turner MG (2010) Disturbance and landscape dynamics in a changing world. Ecology 91 (10): 2833–2849. doi:10.1890/10-0097.1.
  12. Wilson SS, Furman BT, Hall MO, Fourqurean JW (2020) Assessment of Hurricane Irma impacts on South Florida seagrass communities using long-term monitoring programs. Estuarine and Coasts 43 (5): 1119–1132. doi:10.1007/s12237-019-00623-0
  13. World Register of Marine Species –WoRMS. http://www.marinespecies.org/aphia.php?p=taxdetails&id (Latest accessed date: 29 November 2021)
  14. Zainee NFA, Rozaimi M (2020) Influence of monsoonal storm disturbance on the diversity of intertidal macroalgae along the eastern coast of Johor (Malaysia). Regional Studies in Marine Science 40(101481) https://doi.org/10.1016/j.rsma.2020.101481.
  15. Zainee NFA, Ibrahim N, Ismail A (2019a) Rumpai Laut Johor. UKM Press, Bandar Baru Bangi.
  16. Zainee NFA, Ismail A, Taip ME, Ibrahim N, Ismail A (2018) Diversity, distribution and taxonomy of Malaysian marine algae, Halimeda (Halimedaceae, Chlorophyta). Malayan Nature Journal 70 (2): 211–219.
  17. Zainee NFA, Ismail A, Taip ME, Ibrahim N, Ismail A (2019b) Habitat preference of seaweeds at a tropical island of southern Malaysia. Songklanakarin Journal of Science and Technology 41 (5): 1171–1177.

Дополнительные метаданные

Альтернативные идентификаторы https://ipt.gbif.org/resource?r=macroalgae_johor