What is the different between crop and plant?
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What is the different between crop and plant?
The key difference between crop and plant is that crop is an economically important plant used to cultivate and obtain a harvest while plant is any member that belongs to Kingdom Plantae. According to the classification of biological organisms, all plants belong to the kingdom Plantae.
What do you mean by crop physiology?
Crop physiology is the study of the plant processes responsible for the growth, development, and production of economic yield by crop plants.
What is the role of crop physiology?
Crop physiology studies different physiological processes that determine plant growth, development, and economic production. They deal with a plant in terms of knowledge from the different field such as soil science, plant physiology, botany etc. Their main aim is to increase the yield of crops economically.
What is the difference between Botany and plant physiology?
In general, Botany is the study of plants, fungi & not include the plant physiology… Plant sciences study the horticulture & greenhouse management ; Agriculture & soil . Sir, you mean that plant physiology does not come in the domain of Plant sciences?
What is plant physiology?
Plant physiology is the study of plant function and behaviour, encompassing all the dynamic processes of growth, metabolism, reproduction, defence, and communication that account for plants being alive (Salisbury & Ross, 1992; Baluška et al., 2006; Scott, 2008).
What is the meaning of crop plant?
1. countable noun. Crops are plants such as wheat and potatoes that are grown in large quantities for food. Rice farmers here still plant and harvest their crops by hand.
What is plant physiology in agriculture?
Plant physiology is a study of Vital phenomena in plant. It is the science concerned with Processes and functions, the responses of plants to environment and the growth and development that results from the responses.
What is plant physiology and its importance in agriculture?
What is plant physiology and explain its important in agriculture?
Genetic potential of a plant and its interaction with environmental factors decides its growth and development by influencing or modifying certain internal processes. Plant physiology studies about these internal processes and their functional aspects. Plant physiology is a study of Vital phenomena in plant.
What is the difference between plant anatomy and plant physiology?
Plant anatomy refers to the detailed structure of the plant: leaf, stem, roots, flowers, and fruits, while plant physiology is concerned with the processes that occur within the plant that account for it being alive and productive.
What is the importance of crop science?
A growing population and rapid environmental changes mean that crop scientists will play an increasingly important role in ensuring that people and animals are well-fed and healthy. Crop scientists will also work to ensure that pests and weeds are managed so that fields can be as productive as possible.
What is types of crops?
Solved Examples for You
| Kharif Crops | Rabi Crops |
|---|---|
| Sowing of seeds begins in the rainy season around July | Rabi seeds are sown at the beginning of autumn in November or December |
| Harvesting is done in September – October | Harvesting happens in June – July |
| Examples: Rice, Maize, Bajra etc | Examples: Wheat, Mustard, Peas etc |
What is Crop Physiology?
Crop physiology is plant physiology applied to a cropping situation. In that way, it can be considered a subdiscipline of plant physiology, but also agronomy.
Why do we compare maize cultivars?
Comparisons of cultivars released in different eras allow the quantification of the contribution of genetic improvement to crop yield, and for the dissection of the traits involved as is shown in the following example. Breeding consistently increased maize yield potential in Argentina over the past decades.
Why study biotechnology in plant breeding?
After many years of research, physiologists have learned from their failures and few successes, and as such, have highlighted the importance of interactions within plants and between plants and dynamic environments ( Sinclair and Purcell, 2005 ); this experience may help to capture the potential benefits of biotechnology in plant breeding.