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Title: Chromalveolata  
Author: World Heritage Encyclopedia
Language: English
Subject: Flagellate, Eukaryote, Cryptomonad, Hacrobia, Coccolithophore
Collection: Chromalveolata, Obsolete Eukaryote Taxa
Publisher: World Heritage Encyclopedia


Clockwise from top-left: a haptophyte, some diatoms, a water mold, a cryptomonad, and Macrocystis, a phaeophyte
Scientific classification
Domain: Eukarya
(unranked) Bikonta
(unranked): Chromalveolata (monophyly in dispute)[1][2]

Chromalveolata is a chlorophyll c.

However, the monophyly of the Chromalveolata has been increasingly challenged. Thus, two papers published in 2008 have phylogenetic trees in which the chromalveolates are split up,[5][6] and recent studies continue to support this view.[7]


  • Groups and classification 1
  • Morphology 2
  • Ecological role 3
  • Chromalveolata viruses 4
  • References 5
  • External links 6

Groups and classification

Historically, many chromalveolates were considered monophyletic group, but this is apparently not the case.[8]

In 2005, in a classification reflecting the consensus at the time, the Chromalveolata were regarded as one of the six major clades of eukaryotes.[3] Although not given a formal taxonomic status in this classification, elsewhere the group has been treated as a Kingdom. The Chromalveolata were divided into four major subgroups:

Other groups that may be included within, or related to, chromalveolates, are:

Though several groups, such as the ciliates and the water molds, have lost the ability to photosynthesize, most are autotrophic. All photosynthetic chromalveolates use chlorophylls a and c, and many use accessory pigments. Chromalveolates share similar glyceraldehyde 3-phosphate dehydrogenase proteins.[10]

However, as early as 2005, doubts were being expressed as to whether Chromalveolata was monophyletic,[8] and a review in 2006 noted the lack of evidence for several of the supposed six major eukaryote groups, including the Chromalveolata.[11] As of 2012 there seems to be an emerging consensus that the group is not monophyletic. The four original subgroups fall into at least two categories: one comprises the Stramenopiles and the Alveolata, to which the Rhizaria are now usually added to form the SAR group; the other comprises the Cryptophyta and the Haptophyta.[5][6] A 2010 paper splits the Cryptophyta and Haptophyta; the former are a sister group to the SAR group, the latter cluster with the Archaeplastida (plants in the broad sense). The katablepharids are closely related to the cryptophytes and the telonemids and centrohelids may be related to the haptophytes.[7]

A variety of names have been used for different combinations of the groups formerly thought to make up the Chromalveolata.

  • Halvaria Analyses in 2007 and 2008 agreed that the Stramenopiles and the Alveolata were related, forming a reduced chromalveolate clade, called Halvaria.[5][6][12]
  • SAR group The Rhizaria, which were originally not considered to be chromalveolates, belong with the Stramenopiles and Alveolata in many analyses, forming the SAR group, i.e. Halvaria plus Rhizaria.[12][13]
  • Hacrobia The other two groups originally included in Chromalveolata, the Haptophyta and the Cryptophyta, were related in some analyses,[5][6] forming a clade which has been called Hacrobia. Alternatively, the Hacrobia appeared to be more closely related to the Archaeplastida (plants in the very broad sense), being a sister group in one analysis,[5] and actually nested inside this group in another.[6] (Earlier, Cavalier-Smith had suggested a clade called Corticata for the grouping of all the chromalveolates and the Archaeplastida.) More recently, as noted above, Hacrobia has been split, with the Haptophyta being sister to the SAR group and the Cryptophyta instead related to the Archaeplastida.[7]


Chromalveolates, unlike other groups with multicellular representatives, do not have very many common morphological characteristics. Each major subgroup has certain unique features, including the alveoli of the Alveolata, the haptonema of the Haptophyta, the ejectisome of the Crytophyta, and the two different flagella of the Heterokontophyta. However, none of these features are present in all of the groups.

The only common chromalveolate features are these:

  • The shared origin of chloroplasts, as mentioned above
  • Presence of cellulose in most cell walls

Since this is such a diverse group, it is difficult to summarize shared chromalveolate characteristics.

Ecological role

A potato plant infected with Phytophthora infestans.

Many chromalveolates affect our ecosystem in enormous ways.

Some of these organisms can be very harmful. Dinoflagellates produce red tides, which can devastate fish populations and intoxicate oyster harvests. Apicomplexans are some of the most successful specific parasites to animals (including the genus Plasmodium, the malaria parasites). Water molds cause several plant diseases - it was the water mold Phytophthora infestans that caused the Irish potato blight that led to the Great Irish Famine.

However, many others are vital members of our ecosystem. Diatoms are one of the major photosynthetic producers, and as such produce much of the oxygen that we breathe, and also take in much of the carbon dioxide from the atmosphere. Brown algae, most specifically kelps, create underwater "forest" habitats for many marine creatures, and provide a large portion of the diet of coastal communities.

Chromalveolates also provide many products that we use. The algin in brown algae is used as a food thickener, most famously in ice cream. The siliceous shells of diatoms have many uses, such as in reflective paint, in toothpaste, or as a filter, in what is known as diatomaceous earth.

Chromalveolata viruses

Like other organisms, chromalveolata have viruses. In the case of Emiliania huxleyi (a common algal bloom chromalveolate), a virus believed to be specific to it causes mass death and the end of the bloom.[14]


  1. ^ Katz, Laura A.; Grant, Jessica R. (2015-05-01). "Taxon-Rich Phylogenomic Analyses Resolve the Eukaryotic Tree of Life and Reveal the Power of Subsampling by Sites". Systematic Biology 64 (3): 406–415.  
  2. ^ Cavalier-Smith, Thomas; Chao, Ema E.; Lewis, Rhodri (2015-12-01). "Multiple origins of Heliozoa from flagellate ancestors: New cryptist subphylum Corbihelia, superclass Corbistoma, and monophyly of Haptista, Cryptista, Hacrobia and Chromista". Molecular Phylogenetics and Evolution 93: 331–362.  
  3. ^ a b Adl, Sina M.; et al. (2005), "The New Higher Level Classification of Eukaryotes with Emphasis on the Taxonomy of Protists", Journal of Eukaryotic Microbiology 52 (5): 399,  
  4. ^ Keeling PJ (2009). "Chromalveolates and the evolution of plastids by secondary endosymbiosis". J. Eukaryot. Microbiol. 56 (1): 1–8.  
  5. ^ a b c d e Burki, Fabien; Shalchian-Tabrizi, Kamran & Pawlowski, Jan (2008). "Phylogenomics reveals a new 'megagroup' including most photosynthetic eukaryotes". Biology Letters 4 (4): 366–369.  
  6. ^ a b c d e Kim, E; Graham, LE (Jul 2008). Redfield, Rosemary Jeanne, ed. "EEF2 analysis challenges the monophyly of Archaeplastida and Chromalveolata." (Free full text). PLoS ONE 3 (7): e2621.  
  7. ^ a b c Burki, F.; Okamoto, N.; Pombert, J.F. & Keeling, P.J. (2012). "The evolutionary history of haptophytes and cryptophytes: phylogenomic evidence for separate origins". Proc. Biol. Sci. 279: 2246–2254.  
  8. ^ a b Harper, J. T., Waanders, E. & Keeling, P. J. 2005. On the monophyly of chromalveolates using a six-protein phylogeny of eukaryotes. Int. J. System. Evol. Microbiol., 55, 487-496. [2]
  9. ^ Shalchian-Tabrizi K, Eikrem W,  
  10. ^ Takishita K, Yamaguchi H, Maruyama T, Inagaki Y (2009). Zhang, Baohong, ed. "A hypothesis for the evolution of nuclear-encoded, plastid-targeted glyceraldehyde-3-phosphate dehydrogenase genes in "chromalveolate" members". PLoS ONE 4 (3): e4737.  
  11. ^ Laura Wegener Parfrey, Erika Barbero, Elyse Lasser, Micah Dunthorn, Debashish Bhattacharya, David J Patterson, and Laura A Katz (December 2006). "Evaluating Support for the Current Classification of Eukaryotic Diversity". PLoS Genet. 2 (12): e220.  
  12. ^ a b Fabien Burki, Kamran Shalchian-Tabrizi, Marianne Minge, Åsmund Skjæveland, Sergey I. Nikolaev, Kjetill S. Jakobsen, Jan Pawlowski (2007). "Phylogenomics Reshuffles the Eukaryotic Supergroups". PLoS ONE 2 (8): e790.  
  13. ^ Hampl V, Hug L, Leigh JW; et al. (March 2009). """Phylogenomic analyses support the monophyly of Excavata and resolve relationships among eukaryotic "supergroups. Proc. Natl. Acad. Sci. U.S.A. 106 (10): 3859–64.  
  14. ^ Madhusoodanan, Jyoti (August 24, 2014). "Viral demise of an algal bloom:Marine viruses may be key players in the death of massive algal blooms that emerge in the ocean, a study shows". TheScientist. 

External links

  • Tree of Life Eukaryotes
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