Pasca Panen Tanaman Pertanian (AGHAGH440) | Pengukuran Laju Respirasi

agrohortipb

10 Nov 202005:55

Summary

TLDRThis video discusses the importance of understanding post-harvest respiration in horticultural products. After harvest, plants continue metabolic processes, which can affect the quality and shelf life of produce. The respiration rate serves as a key indicator for determining the optimal storage conditions to slow down deterioration, such as controlling temperature, oxygen, and carbon dioxide levels, as well as humidity. The video highlights how measuring respiration through CO2 and O2 concentrations can help determine the best storage practices, ultimately preserving the nutritional value, appearance, and flavor of fresh produce.

Takeaways

😀 Post-harvest products, though no longer attached to the parent plant, continue metabolic processes, including respiration, which can affect their quality.
😀 The absence of water and nutrients from the soil after harvest leads to a disruption in the product’s supply of carbon and energy from photosynthesis.
😀 Understanding the respiratory rate of post-harvest horticultural products is crucial in determining their storage life and quality.
😀 High respiration rates lead to faster degradation of products, reducing shelf life and quality.
😀 Respiration is often used as an index to determine the storage duration of fresh products, influencing their market potential.
😀 Post-harvest respiration also impacts the loss of water, appearance, nutritional value, and taste of products.
😀 Storing fresh products in conditions that slow down respiration and transpiration can extend their shelf life.
😀 Reducing storage temperature, lowering O2 concentration, and increasing CO2 concentration can help decrease respiration rates.
😀 Humidity control is also important in slowing down respiration and maintaining product freshness.
😀 Respiration rates are measured by tracking the concentrations of CO2 or O2 in a closed system over a set period of time, known as the incubation period.

Q & A

What is the main focus of the script?
-The script focuses on post-harvest respiration in horticultural products and its impact on quality preservation and shelf life.
Why is understanding respiration important for horticultural products after harvest?
-Understanding respiration is crucial because it helps determine how long a fresh product can be stored, and how to maintain its quality by slowing down metabolic processes.
How does respiration affect the quality of horticultural products after harvest?
-Respiration causes the breakdown of organic compounds in the product, leading to a loss of quality, such as reduced nutritional value, loss of appearance, and decreased flavor.
What happens to a product's metabolism after it is harvested?
-After harvest, the product's metabolism continues, but it no longer receives water, nutrients, or energy from the parent plant, which can lead to degradation in quality.
How does temperature influence respiration rates in post-harvest products?
-Lowering the temperature slows down the rate of respiration, which helps preserve the product and extend its shelf life by reducing metabolic activity.
What are the main factors that can be controlled to slow down respiration in post-harvest products?
-Factors like reducing temperature, controlling oxygen and carbon dioxide concentrations, and maintaining proper humidity can be adjusted to slow down respiration.
What role does oxygen (O2) and carbon dioxide (CO2) play in respiration measurement?
-Respiration rates are often measured by tracking the concentrations of CO2 produced and O2 consumed in a closed system, which indicates the metabolic activity of the product.
What is the significance of the term 'incubation period' in respiration measurement?
-The incubation period refers to the time over which the concentrations of O2 and CO2 are measured in a closed system to calculate respiration rate.
What tool is used to measure the concentration of CO2 and O2 in respiration studies?
-A cosmotector is used to measure the concentrations of CO2 and O2, which are key to calculating the respiration rate of post-harvest products.
How can post-harvest respiration be controlled to extend the shelf life of fresh products?
-Post-harvest respiration can be controlled by reducing oxygen levels, increasing carbon dioxide concentrations, lowering temperatures, and ensuring adequate humidity to slow down the metabolic processes.