TY - JOUR
T1 - Cyanotypic frequencies in adjacent and mixed populations of Trifolium occidentale Coombe and Trifolium repens L. are regulated by different mechanisms.
AU - Kakes, P.
AU - Chardonnens, A.N.
PY - 2000
Y1 - 2000
N2 - The cyanogenic polymorphism in Trifolium repens is caused by the variation in two genes, the interaction of which produces four distinct cyanotypes. Along the Atlantic coasts of Bretagne, T. repens is sometimes found in populations mixed with the related species Trifolium occidentale, although the latter species usually occurs only in a narrow fringe along the coast, whereas T. repens is a more inland species. No plants of T. occidentale have ever been reported to have linamarase activity. Indeed, of 763 T. occidentale plants studied, none contained linamarase activity. However, the variation in the proportion of cyanotypes in T. repens was enormous, even between sites less than 2 km apart. Our results confirm the presumption that T. repens and T. occidentale are indeed separate species. Both the fact that T. occidentale plants never contain linamarase activity, and the difference in proportion of plants with cyanoglucosides in mixed stands show that gene flow between the species must be rare. These dissimilar distributions strongly indicate that cyanotypic frequencies in adjacent and mixed populations of the very closely related species T. occidentale and T. repens are regulated by different mechanisms. (C) 2000 Elsevier Science Ltd.
AB - The cyanogenic polymorphism in Trifolium repens is caused by the variation in two genes, the interaction of which produces four distinct cyanotypes. Along the Atlantic coasts of Bretagne, T. repens is sometimes found in populations mixed with the related species Trifolium occidentale, although the latter species usually occurs only in a narrow fringe along the coast, whereas T. repens is a more inland species. No plants of T. occidentale have ever been reported to have linamarase activity. Indeed, of 763 T. occidentale plants studied, none contained linamarase activity. However, the variation in the proportion of cyanotypes in T. repens was enormous, even between sites less than 2 km apart. Our results confirm the presumption that T. repens and T. occidentale are indeed separate species. Both the fact that T. occidentale plants never contain linamarase activity, and the difference in proportion of plants with cyanoglucosides in mixed stands show that gene flow between the species must be rare. These dissimilar distributions strongly indicate that cyanotypic frequencies in adjacent and mixed populations of the very closely related species T. occidentale and T. repens are regulated by different mechanisms. (C) 2000 Elsevier Science Ltd.
U2 - 10.1016/S0305-1978(99)00110-6
DO - 10.1016/S0305-1978(99)00110-6
M3 - Article
SN - 0305-1978
VL - 28
SP - 633
EP - 649
JO - Biochemical Systematics and Ecology
JF - Biochemical Systematics and Ecology
ER -