Seed growth of three perennial ryegrass cultivars sown on two dates and treated with trinexapac ethyl straw shortener

摘要

First-year crops of diploid perennial ryegrass (cvs. Meridian, Bronsyn and Grasslands Impact) were sown on 1 April and 14 May 2008. Applications of trinexapac ethyl (TE) plant growth regulator at 0, 200 and 400g a.i. ha(-1) were used to shorten stems to examine the impact of seed growth. Seed filling followed a consistent sigmoidal growth pattern with a lag phase of 127 degrees C days, and linear duration of 390 degrees C days. Time to 95 of final seed weight was 517 degrees C days. Seed yield increases from TE were from higher numbers of first-grade seeds m(-2), achieved by a higher rate of seed filling during the linear phase of 0.115mg per degrees C day per spike. For all cultivars, the maximum stem dry weight occurred at 310-400 degrees C days post-anthesis, which suggest the stem was a strong sink. As seeds developed, their demand for assimilate increased and they drew more from the stem. At harvest, stem weights from TE treatments were 25 heavier than at anthesis, while untreated Bronsyn' and Grasslands Impact' stems were similar to those at anthesis. Thus, stems treated with TE contributed assimilates to increase seed yield but were still a net sink with assimilates in the stem at harvest. Trinexapac ethyl rate induced an inverse relationship between seed yield and stem height. This showed that competition for assimilate between stems and growing seeds limited the seed yield. Management or genetic factors that reduce stem height are likely to increase seed yields of perennial ryegrass.