The Effect Of The Height Of The Lower Stem Connection And The Concentration Of Ergostim On The Growth Of Mango Plant Seeds (Mangifera Indica L.)

Increases the Growth of Mango Seeds: The Role of the Height of the Rootstock and the Concentration of Ergostim

Research conducted by Sofyan Hadi Siregar in 2001 in the trial garden of the Main Horticultural Seeds Center for the Food Crops Agriculture Office of North Sumatra Province aimed to reveal the effect of the height of the lower rootstock and the concentration of ergostim on the growth of mango seeds. This study used a factorial random group design with three levels of the lower stem height (5 cm, 15 cm, and 45 cm) and four levels of ergostim concentration (0 cc/1 water, 0.5 cc/1 water, 1 cc/ 1 water, and 1.5 cc/1 water).

The results showed that the higher lower-rooty height use significantly affected the length of the shoots, but did not have a significant effect on other vegetative growth parameters such as the diameter of the shoots, the number of leaves, and the leaf area. Meanwhile, the treatment with ergostim and interaction between the two factors did not have a significant effect on the growth of the overall mango seeds.

Deeper Analysis:

Lower Stem Height:

The results of the study show that the height of the rootstock indeed plays an important role in increasing the length of the buds, but does not affect the overall vegetative growth. This may be caused by various factors such as the availability of nutrition, growth hormone, and the ability to adapt to plants to environmental conditions.

Ergosttim Concentration:

Ergosttim is a substance that can stimulate plant growth, but in this study, Ergostim does not have a significant impact on the growth of mango seeds. This may be caused by several factors:

• Types of ergostim: The type of ergostim used may not be appropriate for the type of mango under study.
• Ergosttim concentration: The concentration of ergostim used may be too low or too high to produce a significant effect.
• Application time: Ergosttim application time may not be in accordance with the growth phase of mango seeds.

Implications and Recommendations:

The Importance of the Height of the Rootstock:

The results of this study emphasize the importance of choosing the right lower rootstock to increase the length of the shoots. It is essential to conduct further research to optimize the height of the rootstock so that the overall growth of mango seeds can be increased.

Evaluation of the Use of Ergostim:

The use of ergostim in mango seeds needs to be further evaluated by paying attention to the type, concentration, and time of application. It is crucial to choose the right type of ergostim, test various concentrations, and determine optimal application time to produce significant effects on the growth of mango seeds.

Further Research:

Further research needs to be carried out to understand the mechanism of growth of mango seeds and the effect of lower stem height and ergostim concentration on their growth. This study also needs to be done with variations in the type of mango, environmental conditions, and cultivation methods to get more comprehensive results.

Conclusion:

This study shows that the height of the rootstock can be an important factor for increasing the length of the mango seeds. However, the ergostim used in this study did not show a significant effect on the growth of mango seeds. It is essential to conduct further research to optimize the use of height of the rootstock and ergostim to increase the growth of overall mango seeds.

Recommendations for Future Research:

1. Optimize the height of the rootstock: Conduct further research to optimize the height of the rootstock to increase the overall growth of mango seeds.
2. Evaluate the use of ergostim: Further evaluate the use of ergostim in mango seeds by paying attention to the type, concentration, and time of application.
3. Understand the mechanism of growth: Conduct research to understand the mechanism of growth of mango seeds and the effect of lower stem height and ergostim concentration on their growth.
4. Variations in type of mango: Conduct research with variations in the type of mango to get more comprehensive results.
5. Environmental conditions: Conduct research with variations in environmental conditions to get more comprehensive results.
6. Cultivation methods: Conduct research with variations in cultivation methods to get more comprehensive results.

By following these recommendations, future research can provide more comprehensive results and help to optimize the growth of mango seeds.

Q: What is the main objective of the study?

A: The main objective of the study is to reveal the effect of the height of the lower rootstock and the concentration of ergostim on the growth of mango seeds.

Q: What is the factorial random group design used in the study?

A: The study uses a factorial random group design with three levels of the lower stem height (5 cm, 15 cm, and 45 cm) and four levels of ergostim concentration (0 cc/1 water, 0.5 cc/1 water, 1 cc/ 1 water, and 1.5 cc/1 water).

Q: What are the results of the study?

A: The results show that the higher lower-rooty height use significantly affected the length of the shoots, but did not have a significant effect on other vegetative growth parameters such as the diameter of the shoots, the number of leaves, and the leaf area. Meanwhile, the treatment with ergostim and interaction between the two factors did not have a significant effect on the growth of the overall mango seeds.

Q: What is the role of the height of the rootstock in the growth of mango seeds?

A: The height of the rootstock indeed plays an important role in increasing the length of the buds, but does not affect the overall vegetative growth.

Q: What is the effect of ergostim on the growth of mango seeds?

A: Ergostim is a substance that can stimulate plant growth, but in this study, Ergostim does not have a significant impact on the growth of mango seeds.

Q: What are the factors that may affect the use of ergostim in mango seeds?

A: The type of ergostim used, the concentration of ergostim, and the application time may be factors that affect the use of ergostim in mango seeds.

Q: What are the implications and recommendations of the study?

A: The study emphasizes the importance of choosing the right lower rootstock to increase the length of the shoots. It is essential to conduct further research to optimize the height of the rootstock and the use of ergostim to increase the growth of overall mango seeds.

Q: What are the recommendations for future research?

A: The recommendations for future research include optimizing the height of the rootstock, evaluating the use of ergostim, understanding the mechanism of growth, and conducting research with variations in the type of mango, environmental conditions, and cultivation methods.

Q: What are the benefits of conducting further research on the effect of the height of the lower stem connection and the concentration of ergostim on the growth of mango plant seeds?

A: Conducting further research can provide more comprehensive results and help to optimize the growth of mango seeds, which can lead to increased productivity and better quality of mangoes.

Q: What are the potential applications of the study?

A: The study can be applied in various fields such as agriculture, horticulture, and plant breeding to improve the growth and productivity of mango plants.

Q: What are the limitations of the study?

A: The study has limitations such as the use of a small sample size and the lack of control over environmental factors, which may affect the results of the study.

Q: What are the future directions of the study?

A: The future directions of the study include conducting further research to optimize the height of the rootstock and the use of ergostim, and understanding the mechanism of growth of mango seeds.

By answering these frequently asked questions, we hope to provide a better understanding of the study and its implications for the growth and productivity of mango plants.