Climate effects in this way that crops depend on climate.Some crops grow in humid and warm climatic regions whereas, some crops grow in dry and hot climatic regions.If any crop grows in humid and warm climate and we plant that crop in dry and hot climate, it will not grow at any cost.
Climate affects grain farming by influencing the types of crops that can be grown, the timing of planting and harvesting, water availability, and overall crop yields. Changes in temperature, precipitation, and extreme weather events can impact grain production by affecting crop growth and development. It's important for farmers to adapt their practices to the local climate conditions to optimize crop productivity.
The two general types of climate that affect field crop production are temperate and tropical climates. Temperate climates have distinct seasons, with cooler winters and warmer summers, allowing for a variety of crop types to be grown. Tropical climates typically have consistent warm temperatures year-round, which can support continuous crop growth but also present challenges like pests and diseases.
A wet climate is needed and required to grow ragi. It is a rain dependent crop and can handle water logging.
Climatic conditions in Chile can impact the population by affecting agriculture, water availability, and natural disasters. Droughts and fluctuations in temperature can lead to crop failures and affect food security. Water scarcity can impact daily life and industry, particularly in regions like the Atacama Desert. Chile is also prone to earthquakes and volcanic eruptions, which can result in displacement and infrastructure damage.
Climate has a significant impact on field crop production. Drought and flood are the most significant events that effect crop production. Hail storms and severe wind events also effect crop production.
Location and climate can affect population in a region in various ways. A pleasant climate can attract more people to settle in an area, while harsh climates can deter people from living there. The location of a region in terms of proximity to resources, trade routes, and employment opportunities also plays a significant role in determining its population size. Additionally, access to amenities, healthcare, and education in a region can influence population growth.
bumper crop or crop failure...depents if the climate is good
Simplified, Too much water and they rot not enough and they die, same can be said for heat and cold. The kind of climate required varies from plant to plant: example - you can't grow cactus in a paddy field and you can't grow rice in the desert !
How abundant is the crop.
Climate effects in this way that crops depend on climate.Some crops grow in humid and warm climatic regions whereas, some crops grow in dry and hot climatic regions.If any crop grows in humid and warm climate and we plant that crop in dry and hot climate, it will not grow at any cost.
Climate affects grain farming by influencing the types of crops that can be grown, the timing of planting and harvesting, water availability, and overall crop yields. Changes in temperature, precipitation, and extreme weather events can impact grain production by affecting crop growth and development. It's important for farmers to adapt their practices to the local climate conditions to optimize crop productivity.
The two general types of climate that affect field crop production are temperate and tropical climates. Temperate climates have distinct seasons, with cooler winters and warmer summers, allowing for a variety of crop types to be grown. Tropical climates typically have consistent warm temperatures year-round, which can support continuous crop growth but also present challenges like pests and diseases.
Two physical factors that affect agriculture in Southern Ontario are the region's climate, which includes a shorter growing season due to colder winters, and the soil quality, which can vary across the region affecting crop productivity.
Agronomy plays a crucial role in climate through sustainable agricultural practices. By optimizing crop production techniques, such as efficient water use and crop rotation, agronomy can help mitigate climate change by reducing greenhouse gas emissions, conserving soil health, and enhancing carbon sequestration in agroecosystems.
The increase in population due to Urbanization has required an increase in agriculture to feed the growing population. This has led to innovations in farming practices - such as irrigation, crop rotation, and genetic engineering.
A temperate climate, warm summers and cool winters. Adequate rainfall for crop production.