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Red Algae01:23

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Red algae, also known as rhodophytes, are primarily found in marine environments, though some species inhabit freshwater and terrestrial ecosystems. These organisms exist in both unicellular and multicellular forms, with some multicellular varieties reaching macroscopic sizes.As phototrophic organisms, red algae contain chlorophyll a; however, their chloroplasts lack chlorophyll b. Instead, they possess phycobiliproteins, which serve as major light-harvesting pigments, similar to those found in...
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Green algae, also referred to as chlorophytes, are different from red algae in having the chloroplasts containing chlorophylls a and b, which give them their distinct green hue. However, they lack phycobiliproteins, preventing them from developing the red or blue-green pigmentation seen in red algae. In terms of photosynthetic pigment composition, green algae closely resemble plants and share a close evolutionary relationship with them. Taxonomically Green algae belong to Phylum Chlorophyta in...
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The group Stramenopiles include some phototrophic microorganisms. Members of this group possess flagella covered in numerous short, hairlike extensions, a feature that inspired the group's name, derived from the Latin words for "straw" and "hair." Some of the main categories of Stramenopiles include diatoms, golden algae, and brown algae.Diatoms are unicellular, photosynthetic eukaryotes, with over 200 known genera. They play a key role in the planktonic communities of both marine and...
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The kingdom Archaeplastida encompasses red and green algae, along with land plants. Unlike other protists with chloroplasts that arose through secondary endosymbiosis, only red and green algae originated from primary endosymbiotic events. This diverse group of eukaryotic organisms contains chlorophyll and performs oxygenic photosynthesis.Algae exist in various forms, from large brown kelp in coastal waters to green scum in puddles and stains on rocks or soil. Some species are responsible for...
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Rhizaria are a diverse group of unicellular protists characterized by their threadlike cytoplasmic extensions known as pseudopodia. These structures aid in both locomotion and feeding, giving Rhizaria an amoeboid appearance. Their amoeboid morphology once led to taxonomic confusion, but molecular phylogenetics has clarified their evolutionary placement and emphasized their shared use of pseudopodia despite divergent lineages.This clade comprises diverse lineages such as Chlorarachniophyta,...
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Excavata is a diverse group of protists that includes both chemoorganotrophic and phototrophic species, with some thriving in anaerobic environments. Among the key groups within Excavata are diplomonads and parabasalids, which are flagellated protists that lack mitochondria and chloroplasts. These microorganisms typically inhabit anoxic environments, such as the intestines of animals, where they exist either symbiotically or as parasites, relying on fermentation for energy production. Some...
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Updated: Mar 4, 2026

Cultivation of Green Microalgae in Bubble Column Photobioreactors and an Assay for Neutral Lipids
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Rainfall changes affect the algae dominance in tank bromeliad ecosystems.

Aliny Patricia Flauzino Pires1,2,3, Juliana da Silva Leal1, Edwin T H M Peeters4

  • 1Departamento de Ecologia, Instituto de Biologia, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil.

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Climate change impacts rainfall patterns, reducing algae in bromeliad ecosystems. Litter diversity did not influence this aquatic ecosystem shift, highlighting climate change

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Area of Science:

  • Ecology
  • Environmental Science
  • Aquatic Ecosystems

Background:

  • Climate change and biodiversity loss are major global disturbances impacting ecosystems.
  • Understanding the interaction of these factors on aquatic ecosystems is crucial but underexplored.
  • Tank bromeliads serve as miniature aquatic ecosystems, influenced by rainfall and detritus.

Purpose of the Study:

  • To experimentally investigate how altered rainfall distribution and litter diversity affect algae dominance in tank bromeliad ecosystems.
  • To determine the impact of these factors on the structure and functioning of these miniature aquatic environments.
  • To explore potential regime shifts in response to predicted climate changes.

Main Methods:

  • Experimental manipulation of rainfall distribution and litter diversity in tank bromeliad ecosystems.
  • Measurement of chlorophyll-a concentration as an indicator of algae dominance.
  • Development of a theoretical model to describe ecosystem regimes.

Main Results:

  • Changes in rainfall distribution significantly reduced chlorophyll-a concentration, impacting algae dominance.
  • Litter diversity did not influence algae dominance, regardless of rainfall patterns.
  • A theoretical model indicated two potential ecosystem regimes influenced by nutrient uptake and light availability.

Conclusions:

  • Altered rainfall patterns, driven by climate change, may disrupt self-reinforcing mechanisms that maintain algae dominance in bromeliad ecosystems.
  • Predicted climate changes could induce regime shifts in tropical aquatic ecosystems.
  • The study highlights the sensitivity of aquatic ecosystems to climatic variations and their potential for significant structural changes.