Interspecific Hybridization in Trifolium L., Sect. Trifolium Zoh. I. Diploid Hybrids among T. alpestre L., T. rubens L., T. heldreichianum Hausskn., and T. noricum Wulf.

Interspecific hybrids of Trifolium alpestre L. ✕ T. heldreichianum Hausskn. and reciprocal, T. alpestre ✕ T. rubens L. and T. rubens ✕ T. noricum Wulf. were produced by hand pollination in a greenhouse. Only the T. alpestre ✕ T. heldreichianum and T. alpestre ✕ T. rubens hybrids flowered. Hybridization barriers included apparent embryo abortion in the T. rubens ✕ T. alpestre and T. rubens ✕ T. heldreichianum cross, total F 1 seedling inviability in the T. heldreichianum ✕ T. alpestre and T. rubens ✕ T. noricum cross and poor F 2 seed germination and survival in the T. alpestre ✕ T. heldreichianum and T. alpestre ✕ T. rubens hybrids. Hybrids of T. alpestre ✕ T. heldreichianum and T. alpestre ✕ T. rubens had 16 somatic chromosomes and a mean of 7.95 and 7.77 bivalents per Pollen Mother Cell (PMC) respectively. No cells with multivalents were observed and frequency of laggards at anaphase I and micronuclei at the quartet stage was less than 0.20 per PMC. Pollen stainability of T. alpestre ✕ T. heldreichianum and T. alpestre ✕ T. rubens was 53 and 51%, respectively. Self compatibility was dominant to self incompatibility, and expressions of rhizomes and leaf mark were dominant to absences of rhizomes and leaf mark in the T. alpestre ✕ T. heldreichianum hybrid. Presence of rhizomes was also dominant in the T. alpestre ✕ T. rubens hybrid. Second‐generation hybrids were produced by selfing; intercrossing and backcrossing to their parents. No hybrids were produced by crossing either of the interspecific hybrids with red clover, T. pratense L.