Seedling survival of Handroanthus impetiginosus (Mart ex DC) Mattos in a semi-arid environment through modified germination speed and post-germination desiccation tolerance.

J R Martins,A A Alvarenga,D E Ribeiro,P E Toorop,A C Rodrigues,A A S Edvaldo

doi:10.1590/1519-6984.23413

Abstract

Uniform rapid seed germination generally forms a great risk for the plant population if subsequent intermittent precipitation causes desiccation and seedling death. Handroanthus impetiginosus can be found commonly in a wide range of biomes within Brazil including those that are semi-arid. Germination and early growth was studied to understand how germinated seeds survive under these stringent conditions. Accessions were sampled from four seasonally dry biomes in Brazil. Precipitation at the start of the rainy season in the Caatinga, a semi-arid biome, is less predictable and the number of successive dry days per dry interval in the first four months of the rainy season was higher than in the other studied biomes. Plants from the Caatinga produced thicker seeds and this trait concurred with slow germination and stronger osmotic inhibition of germination across the accessions, forming a stress avoidance mechanism in the Caatinga. Post-germination desiccation tolerance was high in the Caatinga accession, could be re-induced in accessions from biomes with more regular precipitation (Cerrado and transition zone), but remained poor in the Cerradão accession; thus forming a stress tolerance mechanism. Production of adventitious roots ascertained survival of all tested individuals from all four locations, even if protruded radicles did not survive desiccation, forming an additional stress tolerance mechanism. A sequence of stress avoidance and stress tolerance mechanisms in seeds and germinated seeds was associated with precipitation patterns in different biomes. These mechanisms purportedly allow rapid seedling establishment when conditions are suitable and enable survival of the young seedling when conditions are adverse.

Highlights

Water is a universal requirement for life and the most abundant component in all active cells
We evaluated various seed traits in a range of accessions of H. impetiginosus from different regions within Brazil that are all characterised by limited water availability in the drier winter season, and where seed germination in the field normally takes place at the start of the rainy season
Rather than the annual precipitation, the current data suggest that the seasonal precipitation pattern and the unpredictable rainfall at the start of the rainy season plays a role in the seed mass and size of H. impetiginosus

Summary

Introduction

Water is a universal requirement for life and the most abundant component in all active cells For this reason, environmental water is a crucial resource for survival of organisms and determines the geographical distribution of the species on the planet (Oliver et al, 2005). Loses desiccation tolerance after germination is completed (Kermode, 1995; Buitink et al, 2003; Maia et al, 2011). This makes the seedling development stages highly vulnerable to drought and associated with high mortality (Harper, 1977). Several studies have shown the possibility of re-establishment of desiccation tolerance in germinated seeds when drying to less than 0.1 g H2O g–1 dw (Bruggink and van der Toorn, 1995; Leprince et al, 2000; Pukacka, 2001; Buitink et al, 2003; Faria et al, 2005; Vieira et al, 2010)

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Conclusion