Physiological and ecological significance of biomineralization in plants

•Biomineralization in plants has multiple diverse functions.•Regulation of cytoplasmic free Ca levels and detoxification of Al and heavy metals.•Gathering and scattering light; aiding pollen release and germination.•Herbivore deterrence.•Biogeochemical cycling of C, Ca, and Si. Biomineralization is...

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Published inTrends in plant science Vol. 19; no. 3; pp. 166 - 174
Main Authors He, Honghua, Veneklaas, Erik J., Kuo, John, Lambers, Hans
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.03.2014
Subjects
aluminum
biomineralization
calcium
Calcium - metabolism
calcium carbonate
calcium oxalate
carbon cycle
carbon dioxide
chemical composition
crystals
Ecology
germination
heavy metals
herbivores
photosynthesis
Photosynthesis - physiology
Plants - metabolism
pollen
silica
silicon
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Abstract •Biomineralization in plants has multiple diverse functions.•Regulation of cytoplasmic free Ca levels and detoxification of Al and heavy metals.•Gathering and scattering light; aiding pollen release and germination.•Herbivore deterrence.•Biogeochemical cycling of C, Ca, and Si. Biomineralization is widespread in the plant kingdom. The most common types of biominerals in plants are calcium oxalate crystals, calcium carbonate, and silica. Functions of biominerals may depend on their shape, size, abundance, placement, and chemical composition. In this review we highlight advances in understanding physiological and ecological significance of biomineralization in plants. We focus on the functions of biomineralization in regulating cytoplasmic free calcium levels, detoxifying aluminum and heavy metals, light gathering and scattering to optimize photosynthesis, aiding in pollen release, germination, and tube growth, the roles it plays in herbivore deterrence, biogeochemical cycling of carbon, calcium, and silicon, and sequestering atmospheric CO2.
AbstractList Biomineralization is widespread in the plant kingdom. The most common types of biominerals in plants are calcium oxalate crystals, calcium carbonate, and silica. Functions of biominerals may depend on their shape, size, abundance, placement, and chemical composition. In this review we highlight advances in understanding physiological and ecological significance of biomineralization in plants. We focus on the functions of biomineralization in regulating cytoplasmic free calcium levels, detoxifying aluminum and heavy metals, light gathering and scattering to optimize photosynthesis, aiding in pollen release, germination, and tube growth, the roles it plays in herbivore deterrence, biogeochemical cycling of carbon, calcium, and silicon, and sequestering atmospheric CO2.Biomineralization is widespread in the plant kingdom. The most common types of biominerals in plants are calcium oxalate crystals, calcium carbonate, and silica. Functions of biominerals may depend on their shape, size, abundance, placement, and chemical composition. In this review we highlight advances in understanding physiological and ecological significance of biomineralization in plants. We focus on the functions of biomineralization in regulating cytoplasmic free calcium levels, detoxifying aluminum and heavy metals, light gathering and scattering to optimize photosynthesis, aiding in pollen release, germination, and tube growth, the roles it plays in herbivore deterrence, biogeochemical cycling of carbon, calcium, and silicon, and sequestering atmospheric CO2.
Biomineralization is widespread in the plant kingdom. The most common types of biominerals in plants are calcium oxalate crystals, calcium carbonate, and silica. Functions of biominerals may depend on their shape, size, abundance, placement, and chemical composition. In this review we highlight advances in understanding physiological and ecological significance of biomineralization in plants. We focus on the functions of biomineralization in regulating cytoplasmic free calcium levels, detoxifying aluminum and heavy metals, light gathering and scattering to optimize photosynthesis, aiding in pollen release, germination, and tube growth, the roles it plays in herbivore deterrence, biogeochemical cycling of carbon, calcium, and silicon, and sequestering atmospheric CO2.
•Biomineralization in plants has multiple diverse functions.•Regulation of cytoplasmic free Ca levels and detoxification of Al and heavy metals.•Gathering and scattering light; aiding pollen release and germination.•Herbivore deterrence.•Biogeochemical cycling of C, Ca, and Si. Biomineralization is widespread in the plant kingdom. The most common types of biominerals in plants are calcium oxalate crystals, calcium carbonate, and silica. Functions of biominerals may depend on their shape, size, abundance, placement, and chemical composition. In this review we highlight advances in understanding physiological and ecological significance of biomineralization in plants. We focus on the functions of biomineralization in regulating cytoplasmic free calcium levels, detoxifying aluminum and heavy metals, light gathering and scattering to optimize photosynthesis, aiding in pollen release, germination, and tube growth, the roles it plays in herbivore deterrence, biogeochemical cycling of carbon, calcium, and silicon, and sequestering atmospheric CO2.
Author Kuo, John
Lambers, Hans
He, Honghua
Veneklaas, Erik J.
Author_xml – sequence: 1
  givenname: Honghua
  surname: He
  fullname: He, Honghua
  email: honghuahe@ms.iswc.ac.cn
  organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, Northwest A&F University, Yangling, Shaanxi 712100, China
– sequence: 2
  givenname: Erik J.
  surname: Veneklaas
  fullname: Veneklaas, Erik J.
  organization: School of Plant Biology, The University of Western Australia, Crawley (Perth), WA 6009, Australia
– sequence: 3
  givenname: John
  surname: Kuo
  fullname: Kuo, John
  organization: Centre for Microscopy, Characterisation and Analysis, The University of Western Australia, Crawley (Perth), WA 6009, Australia
– sequence: 4
  givenname: Hans
  surname: Lambers
  fullname: Lambers, Hans
  organization: School of Plant Biology, The University of Western Australia, Crawley (Perth), WA 6009, Australia
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PublicationDate March 2014
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  year: 2014
  text: March 2014
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PublicationTitle Trends in plant science
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Snippet •Biomineralization in plants has multiple diverse functions.•Regulation of cytoplasmic free Ca levels and detoxification of Al and heavy metals.•Gathering and...
Biomineralization is widespread in the plant kingdom. The most common types of biominerals in plants are calcium oxalate crystals, calcium carbonate, and...
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SubjectTerms aluminum
biomineralization
calcium
Calcium - metabolism
calcium carbonate
calcium oxalate
carbon cycle
carbon dioxide
chemical composition
crystals
Ecology
germination
heavy metals
herbivores
photosynthesis
Photosynthesis - physiology
Plants - metabolism
pollen
silica
silicon
Title Physiological and ecological significance of biomineralization in plants
URI https://dx.doi.org/10.1016/j.tplants.2013.11.002
https://www.ncbi.nlm.nih.gov/pubmed/24291440
https://www.proquest.com/docview/1515645849
https://www.proquest.com/docview/2000178253
Volume 19
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