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Natural recolonization of a productive tropical pond: Day to day variations in the photosynthetic parameters (1991)

Arfi, Robert ; Guiral, Daniel ; Torreton, Jean-Pascal

Springer

Aquatic sciences 53 (1991), S. 39-54

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ISSN: 1420-9055

Keywords: Primary production ; recolonization ; trophic relationships ; tropical pond

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Chlorophyll pigments (CHL), primary productivity (PP) and particulate nitrogen (Np) in relation to several environmental factors were monitored during planktonic colonization of an aquaculture pond (Layo, Côte d'Ivoire). How interactions between the organisms are established in an initially azoic environment were investigated. From March, 15 (D1) to March, 31 (D16), the system transformation went through three stages. First, a precolonization by heterotrophic microbial community from D1 to D2 (Np 〈 1 μm maximum at D2: 243 mg m−2; CHL around 0). Then, a pioneer microalgal community developped from D3 to D7 (maximum CHL on D6: 19 mg m−2; PP: 1.0 g C m−2 d−1) with a significant contribution of picoplankton (CHL and PP 〈 3 μm: 33 and 23% of the total, respectively). Finally, a second microalgal colonization was noticed from D9 to D12 (maximum CHL: 55 mg m−2, PP: 2.8 g C m−2 d−1), largely dominated by nanoplankton (CHL and PP 〉 3 μm: 95 and 99% of the total, respectively). Overall, photosynthetic activity appeared to be closely linked to algal biomass. The study of autotrophic biomass and activity in different size classes in relation to the other parameters allowed us to precise the origin of the biomass fluctuations. The first bloom appeared to be controlled by selective grazing on small algae. The second algal development ended when N requirement represented at least 69% of N supply (in the N — NH4 form). This control was enhanced by the appearance of rotifers, leading to a more complex equilibrium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00877074

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Ecological organization and succession during natural recolonization of a tropical pond (1994)

Guiral, Daniel ; Arfi, Robert ; Bouvy, Marc ; [et al.]

Springer

Hydrobiologia 294 (1994), S. 229-242

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ISSN: 1573-5117

Keywords: bacteria ; phytoplankton ; protozoa ; rotifera ; cyclopoids ; succession ; recolonization ; tropical pond

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The structure of a planktonic community was studied in April 1990 for 24 days (D1 to D24) during the natural recolonization of a tropical pond (Côte d'Ivoire) made azoic by emptying and liming (D0). Abundances of bacterioplankton, phytoplankton, protozoans and zooplankton were studied twice daily, whereas hydrological descriptors (temperature, conductivity, oxygen, pH, dissolved nutrients, sestonic weights) were recorded several times daily. After the pond treatment, the natural refilling from groundwater began immediately. The microheterotrophic (bacteria, flagellates, ciliates), phytoplanktonic (Coelastrum microsporum) and zooplanktonic (the rotifers Brachionus plicatilis and Hexarthra intermedia) communities were first based on opportunist species favored by the initially large nutritive availability. This close link with the trophic resources induced their rapid elimination, as soon as the food source was depleted by overconsumption. Due to liming effects, great amounts of degradable organic compounds allowed bacterial communities to develop before phytoplankton. This biological succession was first based on a catastrophic-type system, successively controlled by bottom-up factors (proliferation) and top-down factors (species collapse). Then, the colonization was completed with the development of secondary consumers (last stages of Apocyclops panamensis and chironomids). The progressive complexity of the system ensured the attenuation of the disturbing events. Finally, due to volume variations of the pond along the recolonization steps, the effects of the dilution process on bacteria and chlorophyll biomass were studied. In a context of non-limiting nutrient substrata, the microbial community was able to colonize the new volume within a few hours. Phytoplankton showed a more complex adaptation to the volume increase, with mixed effects of grazing, sedimentation and diurnal productions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00021296

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