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Structural macrobiota composition

Structural macrobiota composition (structural macrobiota) describes the composition of sessile habitat-forming species. Their presence increases spatial complexity, altering local environmental conditions that leads to colonisation by a diverse assemblage of organisms[7]. The term “macrobiota” implies that an organism must be visible to the naked eye. The structuring role of structural macrobiota can include both three dimensional structure, provided by coral or macroalgae, and two-dimensional structure, provided by crust- or matforming biota (e.g. turfing algae and encrusting sponges).

Intertidal coral at Point Vernon, Hervey Bay, Photo by Maria Zann

Quick facts

Structural macrobiota
provide living space for other animals and plants, and create a diverse assemblage of life.

Fauna and flora structural biota lifeforms are drivers of both physical processes and estuarine and marine function[1]. Combinations of flora and fauna provide structural habitat –e.g. ‘fern grounds’ are a mixture of soft coral / wireweed of 0.5m height, usually on gravel substrates.

Juncus sedge at Kauri Creek, Great Sandy Strait Ramsar site. Photo by Maria ZannThe ability of structural macrobiota to create its own local environment and diverse assemblages makes it comparable to that of the vegetation used in terrestrial and wetland classifications. In the marine environment, this includes seagrasses, macroalgae, stromatolites, corals, sponges and other macroinvertebrates that form large enough patches to provide places for other organisms to live[2]. These structures and patches may be formed by a single primary species, such as serpulid (tubeworm), that generate reefs, or may consist of a number of primary species such as various reef building corals on a coral reef.

The intertidal flora composition categories ‘grass/herb/sedge’ and ‘trees and shrubs’ are part of the modified Specht vegetation structure[6]. Leaf form of seagrasses are correlated to ecological patterns of seagrass meadows (e.g. depth, water clarity, sediment size / compaction)[5] and to dugong food preferences[8].

Bioconstructors are ecosystem engineers that create a hard three-dimensional framework that is usually enduring. Bioconstructors create rugosity, providing 3-D living space for highly diverse biota measurable at the habitat scale[3].

Faunal structural biota often occur on consolidated substrates, but increasingly soft sediments are recognised as providing habitats for a high diversity of sessile macrofauna. These often exist in combination where the dominant taxa interchange spatially (e.g. sponge / sea fan / soft coral gardens). Certain taxa usually considered mobile also include sessile forms, e.g. sessile molluscs include mussel and oyster beds and siliquilariid (wormshell) reefs.

Queensland Intertidal and Subtidal Classification Scheme

Structural macrobiota composition falls under the 'Biota' theme of attributes for the Intertidal and Subtidal Classification Scheme. It refers to the type of (sessile) structural macrobiota (SMB).

Hard corals are important bioconstructors which are distinguishable at the regional and subregional scale, at the seascape scale by their growth forms and, at the habitat scale, the presence of reef-forming Acropora[4].

Attribute Category Table - Structural Macrobiota Composition
Habitat Seascape Subregion Region
Unknown Unknown Unknown [Not applied]
None None None
Grass/herb/sedge - undifferentiated Grass/herb/sedge - undifferentiated Grass/herb/sedge
Grass/herb/sedge - grass or herb Grass/herb/sedge - grass or herb
Grass/herb/sedge - succulent Grass/herb/sedge - succulent
Grass/herb/sedge - sedge Grass/herb/sedge - sedge
Algae - Encrusting Algae - Encrusting Algae
Algae - Turf mat Algae - Turf mat
Algae - Filamentous Algae - Filamentous
Algae - Blue-green Algae - Blue-green
Algae - Erect macrophyte Algae - Erect macrophyte
Algae - Erect calcareous Algae - Erect calcareous
Algae - Undifferentiated Algae - Undifferentiated
Seagrass - Strap narrow Seagrass - Strap narrow Seagrass
Seagrass - Strap broad Seagrass - Strap broad
Seagrass - Ovoid Seagrass - Ovoid
Seagrass - Fern-like Seagrass - Fern-like
Seagrass - Cylindrical Seagrass - Cylindrical
Seagrass - Other or unspecified Seagrass - Other or unspecified
Mangrove - Avicennia Mangrove - Avicennia Mangroves and other salt-tolerant trees
Mangrove - Rhizophora Mangrove - Rhizophora
Mangrove - Ceriops Mangrove - Ceriops
Mangrove - Mixed Mangrove - Mixed
Mangrove - Undifferentiated Mangrove - Undifferentiated
Other trees - Melaleuca, Casuarina Other trees - Melaleuca, Casuarina
Other or unspecified flora Other or unspecified flora
Coral –Octocorallian (incl. gorgonians, sea pens, sea whips) Coral –Octocorallian (incl. gorgonians, sea pens, sea whips) Coral
Coral –undifferentiated Coral –undifferentiated
Hard coral – undifferentiated- Acropora Hard coral - undifferentiated
Hard coral – undifferentiated – non-Acropora
Hard coral – Branching - Acropora Hard coral - Branching
Hard coral – Branching – non-Acropora
Hard coral – Massive - Acropora Hard coral - Massive
Hard coral – Massive – non-Acropora
Hard coral –Submassive - Acropora Hard coral -Submassive
Hard coral -Submassive – non-Acropora
Hard coral - Plate/table - Acropora Hard coral - Plate/table
Hard coral - Plate/table – non-Acropora
Hard coral - Bushy - Acropora Hard coral - Bushy
Hard coral - Bushy – non-Acropora
Hard coral - Vase/foliose - Acropora Hard coral - Vase/foliose
Hard coral - Vase/foliose – non-Acropora
Hard coral - Encrusting - Acropora Hard coral - Encrusting
Hard coral - Encrusting – non-Acropora
Hard coral -Mixture of structures - Acropora Hard coral -Mixture of structures
Hard coral -Mixture of structures – non-Acropora
Sponge Sponge Other fauna
Mollusc - Oysters Mollusc - Oysters
Mollusc - Scallops Mollusc - Scallops
Mollusc - Other undifferentiated (e.g. bivalve, gastropod (limpet, worm shell)) Mollusc - Other undifferentiated (e.g. bivalve, gastropod (limpet, worm shell))
Ascidian (incl. tunicates, sea squirts) Ascidian (incl. tunicates, sea squirts)
Crinoids (incl. feather stars, stalked crinoids) Crinoids (incl. feather stars, stalked crinoids)
Tubeworm (Polychaetes and phoronids) Tubeworm (Polychaetes and phoronids)
Bryozoa (incl. moss animals, lace corals, sea mats) Bryozoa (incl. moss animals, lace corals, sea mats)
Barnacles Barnacles
Other or unspecified fauna (incl. brachipods and kamptozoans) Other or unspecified fauna (incl. brachipods and kamptozoans)
Other or unspecified biota Other or unspecified biota
Unknown Unknown
None None

Additional Information


References

  1. ^ Aquatic Ecosystems Task Group (AETG) 2013, Interim Australian National Aquatic Ecosystem Classification (ANAE) Estuarine - Marine Attribute Workshop Summary Report, Auricht Projects.
  2. ^ Cocito, Silvia 2004, 'Bioconstruction and biodiversity: their mutual influence', Scientia Marina, vol. 68, no. S1, pp. 137-144.
  3. ^ Harborne, AR, Mumby, PJ & Ferrari, R 2012, 'The effectiveness of different meso-scale rugosity metrics for predicting intra-habitat variation in coral-reef fish assemblages', Environmental Biology of Fishes, vol. 94, no. 2, pp. 431-442, Scopus.
  4. ^ Hedley, JohnD, Roelfsema, Chris, Brando, Vittorio, Giardino, Claudia, Kutser, Tiit, Phinn, Stuart, Mumby, PeterJ, Barrilero, Omar, Laporte, Jean & Koetz, Benjamin October 2018, 'Coral reef applications of Sentinel-2: Coverage, characteristics, bathymetry and benthic mapping with comparison to Landsat 8', Remote Sensing of Environment, vol. 216, pp. 598-614, viewed 12 April 2019, <https://linkinghub.elsevier.com/retrieve/pii/S003442571830347X>.
  5. ^ Kilminster, Kieryn, McMahon, Kathryn, Waycott, Michelle, Kendrick, GaryA, Scanes, Peter, McKenzie, Len, O'Brien, KatherineR, Lyons, Mitchell, Ferguson, Angus & Maxwell, Paul 2005, 'Unravelling complexity in seagrass systems for management: Australia as a microcosm', Science of the Total Environment, vol. 534, pp. 97-109, Elsevier.
  6. ^ Neldner, VJ, Wilson, BA, Thompson, EJ & Dillewaard, HA 2012, Methodology for survey and mapping of regional ecosystems and vegetation communities in Queensland. Version 3.2 Updated August 2012., Queensland Herbarium, Queensland Department of Science, Information Technology, Innovation and the Arts, Brisbane.
  7. ^ Schiel, DavidR & Lilley, StacieA 2007, 'Gradients of disturbance to an algal canopy and the modification of an intertidal community', MARINE ECOLOGY-PROGRESS SERIES-, vol. 339, p. 1, INTER RESEARCH.
  8. ^ Sheppard, JamesK, Marsh, Helene, Jones, RhonddaE & Lawler, IvanR 2010, 'Dugong habitat use in relation to seagrass nutrients, tides, and diel cycles', Marine Mammal Science, vol. 26, no. 4, pp. 855-879, Wiley Online Library.

Last updated: 15 July 2019

This page should be cited as:

Structural macrobiota composition, WetlandInfo 2019, Department of Environment and Science, Queensland, viewed 6 August 2019, <https://wetlandinfo.des.qld.gov.au/wetlands/ecology/aquatic-ecosystems-natural/estuarine-marine/attributes/structural-macrobiota-composition/>.

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