1 / 113

1.b. Macroalgae In freshwater biota: Charophytes limited to oligotrophic, alkaline waters .

1.b. Macroalgae In freshwater biota: Charophytes limited to oligotrophic, alkaline waters . Charophyta: left: dense vegetation; Right: detail. 1.b. Macroalgae In freshwater biota: limited: Charophytes Along coastlines: on rocky substrate + in mangroves + in salt marshes + on seagrasses.

bayle
Download Presentation

1.b. Macroalgae In freshwater biota: Charophytes limited to oligotrophic, alkaline waters .

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 1.b. Macroalgae In freshwater biota: Charophytes limited to oligotrophic, alkaline waters.

  2. Charophyta: left: dense vegetation; Right: detail.

  3. 1.b. Macroalgae In freshwater biota: limited: Charophytes • Along coastlines: on rocky substrate + in mangroves + in salt marshes + on seagrasses.

  4. Rocky shore with extensive macroalgal (seaweed) vegetations.

  5. Mangrove with aerial roots (pneumatophores)densely covered by epiphytic algae, mainly red algae (Rhodophyta).

  6. Seaweed growth in a young salt marsh vegetation (Salicornia europaea).

  7. Macroalgae in seagrass vegetations: the brown alga Dictyota epiphytic on Thalassodendron ciliatum.

  8. 1.b. Macroalgae In freshwater biota: limited: Charophytes • Along coastlines: rocky substrate + mangroves + salt marshes + seagrasses. • Plant body = thallus: NO vascular bundles (no "true" roots, stems nor leaves although they can look like -); NO flowers; NO seeds (spores!).

  9. Chlorophyta: Caulerpa sertularioides: structures SIMILAR to higher plants: stolonoïds, rhizoïds and feathery assimilators.

  10. Phaeophyta: Laminaria: structures SIMILAR to higher plants: haptera, stipe and blade.

  11. Rhodophyta: Zellera tawallina with holdfast, stem-like and blade-like structures.

  12. 1.b. Macroalgae In freshwater biota: limited: Charophytes • Along coastlines: rocky substrate + mangroves + salt marshes + seagrasses. • Plant body = thallus: NO vascular bundles (no "true" roots, stems nor leaves); NO flowers; NO seeds (spores!). • Photosynthesis and uptake of nutrients by whole thallus.

  13. 1.b. Macroalgae In freshwater biota: limited: Charophytes • Along coastlines: rocky substrate + mangroves + salt marshes + seagrasses. • Plant body = thallus: NO vascular bundles (no "true" roots, stems nor leaves); NO flowers; NO seeds (spores!). • Photosynthesis and uptake of nutrients by whole thallus. • Underestimated in biodiversity discussions ("invisible").

  14. 1.b. Macroalgae In freshwater biota: limited: Charophytes • Along coastlines: rocky substrate + mangroves + salt marshes + seagrasses. • Plant body = thallus: NO vascular bundles (no "true" roots, stems nor leaves); NO flowers; NO seeds (spores!). • Photosynthesis and uptake of nutrients by whole thallus. • Underestimated in biodiversity discussions ("invisible"). • Requirements for development: * Salt or brackish water (rare exceptions);

  15. 1.b. Macroalgae In freshwater biota: limited: Charophytes • Along coastlines: rocky substrate + mangroves + salt marshes + seagrasses. • Plant body = thallus: NO vascular bundles (no "true" roots, stems nor leaves); NO flowers; NO seeds (spores!). • Photosynthesis and uptake of nutrients by whole thallus. • Underestimated in biodiversity discussions ("invisible"). • Requirements for development: * Salt or brackish water (rare exceptions); * Submerged, at least part of the day;

  16. 1.b. Macroalgae In freshwater biota: limited: Charophytes • Along coastlines: rocky substrate + mangroves + salt marshes + seagrasses. • Plant body = thallus: NO vascular bundles (no "true" roots, stems nor leaves); NO flowers; NO seeds (spores!). • Photosynthesis and uptake of nutrients by whole thallus. • Underestimated in biodiversity discussions ("invisible"). • Requirements for development: * Salt or brackish water (rare exceptions); * Submerged, at least part of the day; * Hard substrate: lithophytes (few exceptions: special anchorage).

  17. 1.b. Macroalgae Species diversity: approximate numbers • Red (Rhodophyta = ± 4000-6000 spp), green (Chlorophyta (macroalgae only!) = ± 2000 spp (+ microalgae = ~ 15000) and brown (Phaeophyta = ± 900-1500 spp) algae [and blue-greens: see micro-algae].

  18. 1.b. Macroalgae Species diversity: approximate numbers • Red (Rhodophyta = ± 4000-6000 spp), green (Chlorophyta (macroalgae only!) = ± 2000 spp (+ microalgae = ~ 15000) and brown (Phaeophyta = ± 900-1500 spp) algae [and blue-greens: see micro-algae]. • Some area's more species rich than others: Pacific: Philippines, Japan; Atlantic: Europe!! (N-Spain, France, UK); Caribbean!! Red Sea & Indian Ocean?? South Africa!! (different climate zones).

  19. 1.b. Macroalgae Species diversity: approximate numbers • Red (Rhodophyta = ± 4000-6000 spp), green (Chlorophyta (macroalgae only!) = ± 2000 spp (+ microalgae = ~ 15000) and brown (Phaeophyta = ± 900-1500 spp) algae [and blue-greens: see micro-algae]. • Some area's more species rich than others: Pacific: Philippines, Japan; Atlantic: Europe!! (N-Spain, France, UK); Caribbean!! Red Sea & Indian Ocean?? South Africa!! (different climate zones) • Most species rich: not tropics >< terrestrial plants.

  20. Chlorophyta (green algae) • More closely related to higher plants than to the brown or red algae!!: photosynthesis by chlorophyll a & b, storage product = starch, cell wall component: cellulose.

  21. Chlorophyta (green algae) • More closely related to higher plants than to the brown or red algae!!: photosynthesis by chlorophyll a & b, storage product = starch, cell wall component: cellulose. • Ulva (incl. Enteromorpha):bioindicators of eutrophication (+ importance of correct ID!!)

  22. Chlorophyta: Ulva lactuca, Sea lettuce (Wimereux): 2-layered membrane, ~ 20 cm large.

  23. Chlorophyta: Ulva (Enteromorpha) intestinalis, Intestine weed (Wimereux): 30 cm long.

  24. Chlorophyta: massive development of Ulva in the intertidal (Wimereux) as a result of eutrophication of the coastal water.

  25. Chlorophyta: Cladophora (Rockweed): habit and detail. Some species growing in freshwater.

  26. Chlorophyta: Bryopsis spp.

  27. Chlorophyta (green algae) • More closely related to higher plants than to the brown or red algae!!: photosynthesis by chlorophyll a & b, storage product = starch, cell wall component: cellulose. • Ulva (incl Enteromorpha):bioindicators of eutrophication (+). • Codium: locally as food.

  28. Chlorophyta: Codium.

  29. Chlorophyta (green algae) • More closely related to higher plants than to the brown or red algae!!: photosynthesis by chlorophyll a & b, storage product = starch, cell wall component: cellulose. • Ulva (incl Enteromorpha):bioindicators of eutrophication (+). • Codium: locally as food. • Halimeda: calcified -> sediments (‘Halimeda-sand’!! (atolls: up to 90%).

  30. Chlorophyta: Halimeda copiosa Calcified, segmented thallus (one segment ~ 0.5 cm).

  31. Chlorophyta: Halimeda tuna (fertile, with gametangia.

  32. Chlorophyta (green algae) • More closely related to higher plants than to the brown or red algae!!: photosynthesis by chlorophyll a & b, storage product = starch, cell wall component: cellulose. • Ulva (incl Enteromorpha):bioindicators of eutrophication (+). • Codium: locally as food. • Halimeda: calcified -> sediments!! (atolls: up to 90%) • Caulerpa: food/toxic; C. taxifolia & C. racemosa-problem in the Mediterranean Sea.

  33. Chlorophyta: Caulerpa racemosa var. racemosa: spherical assimilators.

  34. Chlorophyta: Caulerpa opposita typespecimen of a new species but locally extremely abundant.

  35. Phaeophyta (brown algae) • Photosynthetic pigments: chlorophyll a & c + brown pigments (xanthophylls); cell wall component: alginates (see Human uses)!

  36. Phaeophyta (brown algae) • Photosynthetic pigments: chlorophyll a & c + brown pigments (xanthophylls); cell wall component: alginates ! • Mainly cold water (exceptions).

  37. Phaeophyta (brown algae) • Photosynthetic pigments: chlorophyll a & c + brown pigments (xanthophylls); cell wall component: alginates ! • Mainly cold water (exc.) • From small and filamentous up to 65 m long; haptera (root-like) + stipe (stem-like) + lamina (blade-like) + bladders (floating).

  38. Phaeophyta: Pylaiella littoralis: habit: branched filamentous (Wimereux): detail of a portion ~ 5 cm long.

  39. Phaeophyta: Laminaria saccharina, large specimen in Brittany (Roscoff): ERASMUS field-course.

  40. Phaeophyta: Laminaria saccharina: haptera, stipes, meristematic zone (arrows), basis of the blade (Wimereux).

  41. Phaeophyta: Laminaria saccharina: blades with double row of undulations.

  42. Phaeophyta: Fucus vesiculosus, Bladder weed (Wimereux) with air vesicles (floating).

  43. Phaeophyta (brown algae) • Photosynthetic pigments: chlorophyll a & c + brown pigments (xanthophylls); cell wall component: alginates ! • Mainly cold water (exc.) • From small and filamentous up to 65 m long; haptera (root-like) + stipe (stem-like) + lamina (blade-like) + bladders (floating). • Zonation! Adaptation to dessication, salinity and temperature fluctuations + competition.

  44. Phaeophyta: Pelvetia canaliculata-vegetation in the upper intertidal (Wimereux).

  45. Phaeophyta: Fucus spiralis with numerous receptacles (swollen reproductive structures) in the high intertidal.

  46. Phaeophyta: Fucus vesiculosus, in the middle intertidal (Wimereux).

  47. Phaeophyta: Ascophyllum nodosum: replacing Fucus vesiculosus on sheltered places (Wimereux).

  48. Phaeophyta: Fucus serratus, low intertidal (Wimereux).

  49. Phaeophyta: Himanthalea elongata: zone between intertidal and subtidal (Brittany).

  50. Phaeophyta: Laminaria-zone at spring low tide: Wimereux (L. saccharina, L. digitata).

More Related