Plants on Rich-Magnesium Dolomite Barrens: A Global Phenomenon

For botanists and ecologists, the close link between some plants and substrates, such as serpentine or gypsum, is well known. However, the relationship between dolomite and its flora has been much less studied, due to various causes. Its diffuse separation from limestone and the use of a vague appro...

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Bibliographic Details
Published inBiology (Basel, Switzerland) Vol. 10; no. 1; p. 38
Main Authors Mota, Juan, Merlo, Encarna, Martínez-Hernández, Fabián, Mendoza-Fernández, Antonio J, Pérez-García, Francisco Javier, Salmerón-Sánchez, Esteban
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 08.01.2021
MDPI
Subjects
Adaptation
Cartography
Conservation
dolostone
endemism
Evolution
Flowers & plants
Genetic diversity
Geographic information systems
Geology
glade
Gypsum
Magnesium
Nutrients
Review
Rocks
serpentine
Vegetation
North America
glade
dolostone
plant ionomic
Mg
endemism
gypsum
serpentine
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Summary:For botanists and ecologists, the close link between some plants and substrates, such as serpentine or gypsum, is well known. However, the relationship between dolomite and its flora has been much less studied, due to various causes. Its diffuse separation from limestone and the use of a vague approach and terminology that, until now, no one has tried to harmonize are among these reasons. After carrying out an extensive review, completed with data on the distribution of plants linked to dolomite, the territories in which this type of flora appears at a global level were mapped using a geographic information system software. In addition, data on soils were collected, as well as on their influence on the ionomic profile of the flora. These data were completed with the authors' own information from previous research, which also served to assess these communities' degree of conservation and the genetic diversity of some of their characteristic species. The results showed that the so-called "dolomite phenomenon" is widely represented and is clearly manifested in the appearance of a peculiar flora, very rich in endemisms, on dry soils, poor in nutrients, and with a high Mg level. Although dolomite habitats cause adaptations in plants which are even more recognizable than those of other rock types, they have not been widely studied from an ecological, evolutionary, and conservation point of view because, so far, neither their characteristics nor their universal demarcation have been precisely defined.
ISSN:2079-7737
2079-7737
DOI:10.3390/biology10010038