Abstract
Seeds are a very important input for crops, and the use of low quality seeds and/or inadequate management affects the germination and hampers seedling emergence, which reduces the plant stand. There is a critical need for the development of rapid methods, which are both reliable and easy to perform, for evaluating the physiological potential of seeds. This would streamline the decision-making process regarding the management of lots and allow for the identification of seed lots of inadequate quality in the seed processing unit, which could then be discarded, and would consequently result in reduced costs associated with unnecessary processing. However, it is important that these methods are low cost and quick to perform. The aim of this study was to evaluate the correlation of respiratory activity of wheat seed, through Pettenkofer test, with tests that evaluate seeds physiological quality. We selected a seed lot of high physiological quality, then subjected the seeds to adverse temperature and relative humidity conditions to obtain different vigor levels. The adverse conditions used were 42oC and 100% relative humidity, for periods of 6, 36, 66 and 96 hours. This process obtained seeds of five vigor levels which were subjected to the following tests: germination, field emergence, electrical conductivity, shoot and root length, total dry mass and respiratory activity. The results showed a negative correlation between respiratory activity and germination, emergence, shoot and root length and dry weight, whereas germination and emergence were strongly correlated with respiratory activity, r = -0.86 and r = -0.81, respectively. There was a significant positive correlation between conductivity and respiratory activity. Therefore, the respiratory activity test using the Pettenkofer method was correlated with other vigor tests, and allowed the classification of wheat seeds into lots of different levels of quality.
Highlights
Wheat (Triticum aestivum L.) grass is grown worldwide and is the second largest cereal crop, being of great importance for human and animal nutrition
This study aimed to evaluate the efficiency of the Pettenkofer method for the determination of respiratory activity, in order to differentiate between differences in the physiological quality of wheat seed lots
The results from the G test differed between lots over the five vigor levels, with the highest percentage of germination observed for lot 1 and the lowest observed for lot 5
Summary
Wheat (Triticum aestivum L.) grass is grown worldwide and is the second largest cereal crop, being of great importance for human and animal nutrition. Seeds are an important input for the crop, as the use of high quality seeds provide a more rapid and uniform emission of the primary root during germination, producing seedlings with a larger initial size which results in higher growth and grain yields (MIELEZRSKI et al, 2008; MUNIZZI et al, 2010). One characteristic to be considered during the germination test is the time period for its performance, which requires between 7 and 28 days to obtain the results for most species. The length of this period determines the commercial interest in the seeds. The seed quality cannot always be completely rated by only one test, it is recommended to use various different tests to give a better idea of the physiological quality of a seed lot (SCHEEREN et al, 2010)
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