Understanding In Vitro Embryo Development through Classical Germination Measurements: A Case Study of Dragon’s Blood (Croton lechleri Müll Arg.)

Sample size fluctuation and the restriction of measurements that demonstrate kinetics (typical of physiological processes) are two of the largest inferential constraints in studies on embryonic development in vitro. Thus, we hypothesize that a practical and robust way of aggregating knowledge on asp...

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Bibliographic Details
Published in:Agriculture (Basel) 2023-08, Vol.13 (8), p.1618
Main Authors: de Albuquerque, Janai Pereira, Ribeiro-Oliveira, João Paulo, de Oliveira-Júnior, João Bosco, da Silva Costa, Frederico Henrique, Amaral da Silva, Edvaldo Aparecido
Format: Article
Language:English
Subjects:
Biological materials
Biological models (mathematics)
Blood
Case studies
Coefficient of variation
Croton lechleri
embryo development
Embryogenesis
Embryonic development
Embryonic growth stage
Embryos
functional traits
Germination
Germplasm
growth and development
Indigenous species
Measurement
modeling and measurements
Native species
Physiological aspects
Physiology
Sample size
Seeds
Synchronism
Synchronization
Time synchronization
Variance analysis
Wildlife conservation
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Summary:Sample size fluctuation and the restriction of measurements that demonstrate kinetics (typical of physiological processes) are two of the largest inferential constraints in studies on embryonic development in vitro. Thus, we hypothesize that a practical and robust way of aggregating knowledge on aspects of embryonic development in vitro is to use measurements based on the binary counting component. These are typically used to measure the germination process (intraeminal embryonal development). Our biological model was Dragon’s blood (Croton lechleri Müll Arg.), a species native to the Amazon with great socioeconomic impact. Matrices originating from two populations (one native and another cultivated) were the source of biological material. From this material, we studied five sampling densities (5, 25, 50, and 100 embryos), forming a 2 × 4 factorial ANOVA. Among the measurements studied, the coefficient of variation of time, uncertainty, and the synchronization index were the most sensitive to sample-size fluctuation. The synchronization index, however, also proved to be an interesting measurement to detect the parental effect related to the place of occurrence of the matrices. The embryonic development ability, mean development time, and mean development rate were not affected by fluctuations in the sample size or the origin of the material, demonstrating highly conserved traits of the species. Finally, in general, the measurements based on binary counting demonstrated robustness for modeling embryonic growth.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture13081618