TY - JOUR

T1 - Reduced sexual compatibility between cultivated and wild chicory and their F1 hybrids

AU - Hauser, Thure Pavlo

AU - Bagger Jørgensen, Rikke

AU - Toneatto, Fiorello

PY - 2012

Y1 - 2012

N2 - Crops were domesticated from wild plants not too long ago and have subsequently diverged from the wild ones, especially in traits used by humans. Whether divergence between the cultigen and wild forms has also lead to reduced reproductive compatibility is unknown for many species. Chicory (Cichorium intybus L.) has been bred as a crop at least since Roman times. To test if this has led to aloss in reproductive compatibility with wild chicory, we planted cultivar, wild, and F1 hybrid plants intotwo field plots, and let them pollinate freely. On 2 days, in the beginning and middle of the floweringseason, we counted the numbers of flowering capitula and open flowers per capitulum, which in combination with counts of viable pollen per flower were used to estimate the expected proportion of seeds fathered by cultivar, wild, and hybrid plants. Open capitula on wild and hybrid plants were marked, and when seeds were ripe we determined whether cultivar, wild or hybrid plants had pollinated the seeds, using AFLP markers. Cultivar plants fathered much fewer seeds than expected, both on wild and hybrid plants, suggesting that some degree of incompatibility has evolved between cultivar and wild chicory. Hybrid plants fathered more seeds than expected on some of the hybrid plants, indicating that hybrids do not suffer much from outbreeding depression. Our study thussuggests that cultivated and wild chicory, even though they belong to the same species, have diverged to an extent where reproduction between them is somewhat impaired.

AB - Crops were domesticated from wild plants not too long ago and have subsequently diverged from the wild ones, especially in traits used by humans. Whether divergence between the cultigen and wild forms has also lead to reduced reproductive compatibility is unknown for many species. Chicory (Cichorium intybus L.) has been bred as a crop at least since Roman times. To test if this has led to aloss in reproductive compatibility with wild chicory, we planted cultivar, wild, and F1 hybrid plants intotwo field plots, and let them pollinate freely. On 2 days, in the beginning and middle of the floweringseason, we counted the numbers of flowering capitula and open flowers per capitulum, which in combination with counts of viable pollen per flower were used to estimate the expected proportion of seeds fathered by cultivar, wild, and hybrid plants. Open capitula on wild and hybrid plants were marked, and when seeds were ripe we determined whether cultivar, wild or hybrid plants had pollinated the seeds, using AFLP markers. Cultivar plants fathered much fewer seeds than expected, both on wild and hybrid plants, suggesting that some degree of incompatibility has evolved between cultivar and wild chicory. Hybrid plants fathered more seeds than expected on some of the hybrid plants, indicating that hybrids do not suffer much from outbreeding depression. Our study thussuggests that cultivated and wild chicory, even though they belong to the same species, have diverged to an extent where reproduction between them is somewhat impaired.

KW - Former LIFE faculty

KW - Cichorium intybus

U2 - 10.1007/s10722-011-9718-1

DO - 10.1007/s10722-011-9718-1

M3 - Journal article

VL - 59

SP - 783

EP - 791

JO - Genetic Resources and Crop Evolution

JF - Genetic Resources and Crop Evolution

SN - 0925-9864

IS - 5

ER -