Avaliação da viabilidade de embriões de coqueiro criopreservados por meio de condutividade elétrica e lixiviação de potássio

The objective of this work was to adapt the application of electrolytic conductivity and potassium leaching tests to assess the viability of cryopreserved embryos of 'Anão Verde do Brasil de Jiqui' (AVeJBr) coconut. The zygotic embryos were excised, sterilized and subjected to four cryoprotectant treatments combined with three incubation times (12, 16 and 20 hours), totaling 12 treatments. The pre‑treatment of mature zygotic embryos of AVeJBr coconut using a cryoprotectant with 1.75 mol L‑1 of sucrose + 15% glycerol for 12 and 16 hours promoted lower embryo humidity and increased viability in electrolytic conductivity and potassium leaching tests. Samples with ten embryos are sufficient for electrolytic conductivity analysis in cryopreserved or non‑cryopreserved AVeJBr coconut zygotic embryos. The 4 to 8 hour imbibition period of the embryos is promising for the electrolytic conductivity analysis of non‑cryopreserved mature zygotic embryos of AVeJBr coconut.O objetivo deste trabalho foi adaptar a aplicação de testes de condutividade elétrica e lixiviação de potássio para avaliar a viabilidade de embriões de coqueiro 'Anão Verde do Brasil de Jiqui' (AVeJBr) criopreservados. Os embriões zigóticos foram excisados, esterilizados e submetidos a quatro tratamentos crioprotetores combinados a três tempos de incubação (12, 16 e 20 horas), o que totalizou 12 tratamentos. O pré‑tratamento de embriões zigóticos maduros de coco AVeJBr com crioprotetor contendo 1,75 mol L‑1 de sacarose + 15% de glicerol por 12 e 16 horas promoveu menor umidade dos embriões e maior viabilidade em testes de condutividade elétrica e lixiviação de potássio. Amostras com dez embriões são suficientes para análise de condutividade elétrica em embriões zigóticos de coqueiro AVeJBr criopreservados ou não. O período de embebição de 4 a 8 horas é promissor para a análise da condutividade elétrica em embriões zigóticosmaduros de coco AVeJBr não criopreservados

Assessing the viability of cryopreserved coconut zygotic embryos by electrolytic conductivity and potassium leaching

The objective of this work was to adapt the application of electrolytic conductivity and potassium leaching tests to assess the viability of cryopreserved embryos of 'Anão Verde do Brasil de Jiqui' (AVeJBr) coconut. The zygotic embryos were excised, sterilized and subjected to four cryoprotectant treatments combined with three incubation times (12, 16 and 20 hours), totaling 12 treatments. The pre-treatment of mature zygotic embryos of AVeJBr coconut using a cryoprotectant with 1.75 mol L-1 of sucrose + 15% glycerol for 12 and 16 hours promoted lower embryo humidity and increased viability in electrolytic conductivity and potassium leaching tests. Samples with ten embryos are sufficient for electrolytic conductivity analysis in cryopreserved or non-cryopreserved AVeJBr coconut zygotic embryos. The 4 to 8 hour imbibition period of the embryos is promising for the electrolytic conductivity analysis of non-cryopreserved mature zygotic embryos of AVeJBr coconut

Germination and vigor of stored Jatropha (Jatropha curcars L.) seeds

Abstract: Jatropha seeds are classified as orthodox. However, since it is an oil seed species, adequate storage conditions are required to ensure their longevity. The objective of this work was to evaluate the physiological quality of jatropha seeds stored in different environments and packaging, for periods of 3, 9 and 15 months. Three types of seed packaging bags (high density plastic bag, aluminized envelope and multiwall paper bag) were used, and the storage environments were cold and dry chamber (20 °C and 15% RH, constant), refrigerator (7 ± 3 °C, 48 ± 8% RH) and laboratory conditions (25 ± 3 °C, 51 ± 7% RH). The initial moisture content and seed germination were 7.1% and 89%, respectively. During storage, the physiological quality (germination and vigor) and moisture content of the seeds were evaluated. Seed water content ranged from 3.3 to 7.7%, depending on the permeability of the packaging and the storage environment. The highest longevity (15 months) without loss of viability was observed for jatropha seeds with initial moisture of 7.1%, packed in semipermeable plastic. Seed vigor was maintained, regardless of the environment and the type of packaging used, for up to nine months of storage

Germination and vigor of stored Jatropha (Jatropha curcars L.) seeds

<div><p>Abstract: Jatropha seeds are classified as orthodox. However, since it is an oil seed species, adequate storage conditions are required to ensure their longevity. The objective of this work was to evaluate the physiological quality of jatropha seeds stored in different environments and packaging, for periods of 3, 9 and 15 months. Three types of seed packaging bags (high density plastic bag, aluminized envelope and multiwall paper bag) were used, and the storage environments were cold and dry chamber (20 °C and 15% RH, constant), refrigerator (7 ± 3 °C, 48 ± 8% RH) and laboratory conditions (25 ± 3 °C, 51 ± 7% RH). The initial moisture content and seed germination were 7.1% and 89%, respectively. During storage, the physiological quality (germination and vigor) and moisture content of the seeds were evaluated. Seed water content ranged from 3.3 to 7.7%, depending on the permeability of the packaging and the storage environment. The highest longevity (15 months) without loss of viability was observed for jatropha seeds with initial moisture of 7.1%, packed in semipermeable plastic. Seed vigor was maintained, regardless of the environment and the type of packaging used, for up to nine months of storage.</p></div