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Gisekia (Gisekiaceae): Phylogenetic relationships, biogeography, and ecophysiology of a poorly known C 4 lineage in the Caryophyllales
Author(s) -
Bissinger Kerstin,
Khoshravesh Roxanne,
Kotrade Jan Peter,
Oakley Jason,
Sage Tammy L.,
Sage Rowan F.,
Hartmann Heidrun E. K.,
Kadereit Gudrun
Publication year - 2014
Publication title -
american journal of botany
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.218
H-Index - 151
eISSN - 1537-2197
pISSN - 0002-9122
DOI - 10.3732/ajb.1300279
Subject(s) - biology , lineage (genetic) , biogeography , phylogenetics , phylogenetic tree , genus , molecular phylogenetics , polyphyly , botany , clade , evolutionary biology , ecology , zoology , biochemistry , gene
• Premise of the study: Gisekiaceae are a monogeneric family of the core Caryophyllales distributed in arid regions of Africa and Asia. The only widespread species of the genus, Gisekia pharnaceoides , performs C 4 photosynthesis based on CO 2 compensation point measurements. This study investigates the C 4 syndrome and its evolution in Gisekia . The infrageneric relationships, distribution and bioclimatic preferences of Gisekia are also investigated. • Methods: Leaf gas exchange characteristics, activity of Rubisco and major C 4 cycle enzymes, and ultrastructural characteristics of mesophyll and bundle sheath cells are studied for Gisekia pharnaceoides . δ 13 C values and leaf anatomy are analyzed for all species. A dated molecular phylogeny of 39 accessions representing all species of Gisekiaceae and 14 representatives of closely related core Caryophyllales families is generated using four cp markers and ITS. The precise current distribution and bioclimatic niche of Gisekia is assessed on the basis of 520 georeferenced specimen localities. • Key results: All traditionally recognized species of Gisekia are C 4 plants with atriplicoid Kranz anatomy. Gisekia pharnaceoides uses the NAD‐ME biochemical type. The molecular phylogeny demonstrated two East African clades nested within South African clades, demonstrating migration along the arid areas of eastern Africa during the Late Miocene/Pliocene Epochs. Most traditionally defined species are polyphyletic. • Conclusions: Gisekia represents an isolated C 4 lineage within core Caryophyllales dating back to the Miocene Epoch and probably spread along the African arid corridor from a South African center of origin. The seven currently recognized species should be treated as one polymorphic species or species complex, Gisekia pharnaceoides agg.