LOSS OF DESICCATION TOLERANCE IN SEEDS OF TREE SPECIES DURING GERMINATION: THEORETICAL AND PRACTICAL IMPLICATIONS

Wilson Vicente Souza Pereira,Lucas Amaral De Melo,Anderson Cleiton José,Olivia Alvina Oliveira Tonetti,José Marcio Rocha Faria

doi:10.1590/1806-90882018000500003

Wilson Vicente Souza Pereira, Lucas Amaral De Melo + Show 3 more

Open Access

https://doi.org/10.1590/1806-90882018000500003

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Journal: Revista Árvore	Publication Date: Nov 14, 2018
Citations: 3	License type: cc-by

Affiliation: Universidade Federal de Lavras

Abstract

ABSTRACT Understanding the loss of desiccation tolerance is of great importance in seed technology for its implications in the development of strategies for seed conservation and seedling production. In the present work, the loss of desiccation tolerance was studied in seeds of tree species Bowdichia virgilioides, Libidibia ferrea, Cedrela fissilis, Enterolobium contortisiliquum, Handroanthus impetiginosus, and Piptadenia gonoacantha. The seeds were collected in the region of Lavras, MG, and subjected to desiccation experiments individually for each species. Imbibition curve was created for each species by measuring seed weight at regular intervals under germination conditions. Based on this information, the seeds were allowed to imbibe for a time inferred from the imbibition curve, and then allowed to dry until reaching the initial water content measured before the imbibition begun. Then, the seeds were rehydrated, and those that developed into normal seedlings were considered desiccation-tolerant. The loss of seed desiccation tolerance followed a specific pattern in each studied species, but none of the species was tolerant to desiccation after radicle protrusion. A drastic decrease in desiccation tolerance was observed in P. gonoacantha seeds at the beginning of the germination process. Under the conditions implemented in this study, the loss of desiccation tolerance in all species started at the beginning of the germination process. These results have implications in both theoretical studies (seed priming) and the practice (in seedling production).

Highlights

The ability of an organism to survive critical levels of drying and completely reestablish normal metabolism after water absorption is defined as desiccation tolerance (Oliver et al, 2014)
All the seeds, except those of tamboril, followed the triphasic pattern of imbibition proposed by Bewley et al (2013), which consists of tree imbibition phases: the first characterized by fast weight gain and no metabolic events; the second with little or no weight gain, while seed metabolism becomes more intense in preparation for germination; and the last, which started with radicle protrusion and increase in weight
Considering the theoretical pattern proposed by Bewley et al (2013) for orthodox seeds undergoing germination process, the analysis of weight gain by seeds confirmed the triphasic pattern of seed germination in seeds of sucupira, cedar, purple ipê, and pau-jacaré, being the pattern for this last species well defined (Figure 1A, C, E, and F)

Summary

Introduction

The ability of an organism to survive critical levels of drying and completely reestablish normal metabolism after water absorption is defined as desiccation tolerance (Oliver et al, 2014). It is present in all types of organisms from microorganism to animal species (Alpert, 2000). Orthodox seeds assume a recalcitrant-like behavior during the germination process and present a useful model for studying desiccation tolerance/sensitivity in seeds (Sun et al, 1999)

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