Serpentine Barrens: Difference between revisions
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[[File:SBW-1.jpg|right|450px|"Goat Hill Serpentine Barrens in SE Pennsylvania. Photo taken by Josh Klostermann"]] | [[File:SBW-1.jpg|right|450px|"Goat Hill Serpentine Barrens in SE Pennsylvania. Photo taken by Josh Klostermann"]] | ||
Serpentine Barrens are unique ecoregions that can be found globally, in patchy/small pockets of land with serpentine [[bedrock]] and [[soil]]. The term "serpentine barren" generally refers to a serpentine outcrop and its | Serpentine Barrens are unique ecoregions that can be found globally, in patchy/small pockets of land with serpentine [[bedrock]] and [[soil]]. The term "serpentine barren" generally refers to a serpentine outcrop and its associated vegetation. Vegetative communities growing in serpentine barrens differ from surrounding areas by having a notably distinct physiognomy and community structure, low species richness, a dominance of specific taxa, a predominance of xerophytic species, low productivity, the co-existence of high and low ph-tolerant species, and high rates of endemism. The difference in vegetative communities is the product of chemical, physical, and biotic factors but is primarily driven by the toxic mineral composition of the serpentine bedrock that has weathered into the soil. [] | ||
Soil formation: sea rock uplifted to crust. Ultra Mafic. | Soil formation: sea rock uplifted to crust. Ultra Mafic. | ||
Revision as of 11:21, 2 May 2021
Serpentine Barrens are unique ecoregions that can be found globally, in patchy/small pockets of land with serpentine bedrock and soil. The term "serpentine barren" generally refers to a serpentine outcrop and its associated vegetation. Vegetative communities growing in serpentine barrens differ from surrounding areas by having a notably distinct physiognomy and community structure, low species richness, a dominance of specific taxa, a predominance of xerophytic species, low productivity, the co-existence of high and low ph-tolerant species, and high rates of endemism. The difference in vegetative communities is the product of chemical, physical, and biotic factors but is primarily driven by the toxic mineral composition of the serpentine bedrock that has weathered into the soil. []
Soil formation: sea rock uplifted to crust. Ultra Mafic.
Evolution and soil edaphism:
East Coast Serpentine Barrens: Add map of barrens. Briefly describe history + formation
Flora: Photos reel of plants. Plant list.
Threats and Restoration Efforts: Invasive species, hydrology, fire
Bioremediation: proxy for restoration ecology bc of high metal content