figshare
Browse
tped_a_1449262_sm9039.pdf (257.54 kB)

Genetic and environmental variation of seed weight in Trichloris species (Chloridoideae, Poaceae) and its association with seedling stress tolerance

Download (257.54 kB)
journal contribution
posted on 2018-03-20, 14:39 authored by Lorena Marinoni, Juan M. Zabala, Mauricio Parra-Quijano, Roberto J. Fernández, José F. Pensiero

Background: Seed weight is a key fitness-related trait associated with plant adaptation and is commonly targeted in plant breeding.

Aims: We evaluated seed weight variation within and between Trichloris crinita and Trichloris pluriflora across their geographical ranges in Argentina.

Methods: Genetic variation in seed weight was evaluated through a common garden experiment. To examine the possible role of such variation in local adaptation, we compared the seed weight of plants of populations raised in the common garden with seed weight variation and ecogeographical variables across their original habitats. We also evaluated experimentally the effects of seed weight variation upon osmotic stress tolerance at germination.

Results: Variation in seed weight existed in both species. Such variation had a genetic basis in T. crinita related to several ecogeographical variables. Larger seeds of T. crinita were associated with more stressful environments and produced larger seedlings under both osmotic stress and non-stress conditions.

Conclusions: Our results suggest that seed weight variation in T. crinita is likely adaptive, with large seed having an advantage during early developmental stages, particularly under stressful conditions. Such knowledge should prove helpful in selecting the most suitable populations for restoration and plant breeding.

Funding

Funding partially provided by the Programme of Documentation, Conservation and Valuation of Native Flora of the Universidad Nacional del Litoral and the CAID 2011 project of the Universidad Nacional del Litoral, the PIP-CONICET No. 112-201101-9 Project, and the Argentinean ANPCyT grant PICT-1138/10 to R.J. Fernández and G.E. Schrauf (Univ. Buenos Aires).

History