Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity
Phaleria macrocarpa, or also known as Mahkota Dewa, is popular medicinal plant in Indonesia and has recently been introduced in Malaysia in view of its commercial potential as health supplements. Many studies have focused on the active compounds in fruit, which is primarily used in medicinal product...
Saved in:
| Main Author: | |
|---|---|
| Format: | Thesis |
| Language: | English |
| Published: |
2016
|
| Subjects: | |
| Online Access: | https://ir.uitm.edu.my/id/eprint/28035/1/TP_SUAAD%20MOHAMED%20AHMED%20ASRITY%20AT%2016_5.pdf |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
my-uitm-ir.28035 |
|---|---|
| record_format |
uketd_dc |
| institution |
Universiti Teknologi MARA |
| collection |
UiTM Institutional Repository |
| language |
English |
| topic |
Plant anatomy Medical botany (General) |
| spellingShingle |
Plant anatomy Medical botany (General) Ahmed Asrity, Suaad Mohamed Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity |
| description |
Phaleria macrocarpa, or also known as Mahkota Dewa, is popular medicinal plant in Indonesia and has recently been introduced in Malaysia in view of its commercial potential as health supplements. Many studies have focused on the active compounds in fruit, which is primarily used in medicinal products, but postharvest handling of the fruits has not been well documented. Studies were, hence, carried out to determine the relationship between fruit ripeness, morphological and chemical properties, and changes during fruit storage prior to product development for safety and optimum health benefits. Besides, the seeds within them are also primary means of propagation as vegetative multiplication of this plant species is of low success. Results showed that fruit of drupe of this medicinal plant had respiration rate, size and weight increased while become more juicy as ripening progressed from full size unripe to fully ripe stage. It is probably a climacteric fruit. Antioxidant contents in terms of ascorbic acid and total phenolic contents were, however, lower with fully ripe fruits as compared to half ripe and unripe fruits. Most fully ripe fruits also had insect pest and microbial damages in pericarp and mesocarp, making them unsuitable for product development. Subsequent studies on fruit storage for medicinal products were, hence, only conducted with unripe and half ripe fruits. These fruits were short lived with refrigeration storage at 8±2°C. Fruits packed in perforated polythene bags could be stored for only two weeks while vacuum packaging could keep the fruits for longer period of four weeks with acceptable 5% damage. Fruits exhibited lower titratable acidity and ascorbic acid content but soluble solids increased following storage in the refrigerator. There was greater loss of antioxidants in the unripe fruits as compared to half ripe fruits with cold storage. Frozen storage at -20 °C enabled the fruits of unripe and half ripe stages to be stored for up to six months, with both perforated and vacuum packaging, without deleterious changes in fruit moisture and size but fruits turned duller in colour indicating freezing injuries and also became softer after thawing from sub-zero temperature storage. Antioxidants of ascorbic acid also dropped drastically while phenolics decreased gradually in both unripe and half ripe fruits with increasing freezer storage duration. For medicinal product development purposes, Phaleria macrocarpa fruits are best harvested at half ripe stage with consideration in terms of fruit damage, weight, size and antioxidant contents. Fruits should be processed at the soonest pace for high antioxidant content or cold stored for less than four weeks. Fruits can be preserved for longer periods of a few months at -20 °C prior to product development but the antioxidants in them lost gradually with increasing storage time. Fully ripe Phaleria macrocarpa fruits were best for planting purposes as the embryonic axes in seeds of both unripe and half ripe fruits were not fully developed for germination purposes. The fruits should be planted in media fast or within four weeks with cold storage at 8±2 °C. With seed desiccation tolerance trial as normally applied for seed handling, seed germination dropped to 63% with moisture content of 16%. The seed can be said to have desiccation tolerance between recalcitrant and intermediate seeds. The embryonic axes could, however, tolerate further desiccation and retain 77% in vitro proliferation at lower tissue moisture content of 13.6%. In vitro conservation efforts can be planned with the embryonic axes for this medicinal plant. |
| format |
Thesis |
| qualification_name |
Doctor of Philosophy (PhD.) |
| qualification_level |
Doctorate |
| author |
Ahmed Asrity, Suaad Mohamed |
| author_facet |
Ahmed Asrity, Suaad Mohamed |
| author_sort |
Ahmed Asrity, Suaad Mohamed |
| title |
Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity |
| title_short |
Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity |
| title_full |
Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity |
| title_fullStr |
Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity |
| title_full_unstemmed |
Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity |
| title_sort |
fruit ripeness in relation to storability for medicinal product development and seed viability of phaleria macrocarpa / suaad mohamed ahmed asrity |
| granting_institution |
Universiti Teknologi MARA |
| granting_department |
Faculty of Plantation and Agrotechnology |
| publishDate |
2016 |
| url |
https://ir.uitm.edu.my/id/eprint/28035/1/TP_SUAAD%20MOHAMED%20AHMED%20ASRITY%20AT%2016_5.pdf |
| _version_ |
1783734039943839744 |
| spelling |
my-uitm-ir.280352022-06-21T07:40:32Z Fruit ripeness in relation to storability for medicinal product development and seed viability of Phaleria macrocarpa / Suaad Mohamed Ahmed Asrity 2016 Ahmed Asrity, Suaad Mohamed Plant anatomy Medical botany (General) Phaleria macrocarpa, or also known as Mahkota Dewa, is popular medicinal plant in Indonesia and has recently been introduced in Malaysia in view of its commercial potential as health supplements. Many studies have focused on the active compounds in fruit, which is primarily used in medicinal products, but postharvest handling of the fruits has not been well documented. Studies were, hence, carried out to determine the relationship between fruit ripeness, morphological and chemical properties, and changes during fruit storage prior to product development for safety and optimum health benefits. Besides, the seeds within them are also primary means of propagation as vegetative multiplication of this plant species is of low success. Results showed that fruit of drupe of this medicinal plant had respiration rate, size and weight increased while become more juicy as ripening progressed from full size unripe to fully ripe stage. It is probably a climacteric fruit. Antioxidant contents in terms of ascorbic acid and total phenolic contents were, however, lower with fully ripe fruits as compared to half ripe and unripe fruits. Most fully ripe fruits also had insect pest and microbial damages in pericarp and mesocarp, making them unsuitable for product development. Subsequent studies on fruit storage for medicinal products were, hence, only conducted with unripe and half ripe fruits. These fruits were short lived with refrigeration storage at 8±2°C. Fruits packed in perforated polythene bags could be stored for only two weeks while vacuum packaging could keep the fruits for longer period of four weeks with acceptable 5% damage. Fruits exhibited lower titratable acidity and ascorbic acid content but soluble solids increased following storage in the refrigerator. There was greater loss of antioxidants in the unripe fruits as compared to half ripe fruits with cold storage. Frozen storage at -20 °C enabled the fruits of unripe and half ripe stages to be stored for up to six months, with both perforated and vacuum packaging, without deleterious changes in fruit moisture and size but fruits turned duller in colour indicating freezing injuries and also became softer after thawing from sub-zero temperature storage. Antioxidants of ascorbic acid also dropped drastically while phenolics decreased gradually in both unripe and half ripe fruits with increasing freezer storage duration. For medicinal product development purposes, Phaleria macrocarpa fruits are best harvested at half ripe stage with consideration in terms of fruit damage, weight, size and antioxidant contents. Fruits should be processed at the soonest pace for high antioxidant content or cold stored for less than four weeks. Fruits can be preserved for longer periods of a few months at -20 °C prior to product development but the antioxidants in them lost gradually with increasing storage time. Fully ripe Phaleria macrocarpa fruits were best for planting purposes as the embryonic axes in seeds of both unripe and half ripe fruits were not fully developed for germination purposes. The fruits should be planted in media fast or within four weeks with cold storage at 8±2 °C. With seed desiccation tolerance trial as normally applied for seed handling, seed germination dropped to 63% with moisture content of 16%. The seed can be said to have desiccation tolerance between recalcitrant and intermediate seeds. The embryonic axes could, however, tolerate further desiccation and retain 77% in vitro proliferation at lower tissue moisture content of 13.6%. In vitro conservation efforts can be planned with the embryonic axes for this medicinal plant. 2016 Thesis https://ir.uitm.edu.my/id/eprint/28035/ https://ir.uitm.edu.my/id/eprint/28035/1/TP_SUAAD%20MOHAMED%20AHMED%20ASRITY%20AT%2016_5.pdf text en public phd doctoral Universiti Teknologi MARA Faculty of Plantation and Agrotechnology |