agronomy ['ægə'rɒnəmi] n. 农艺学;农业科学
发音:/ˌægəˈrɑːnəmi/
意思:农艺学;农业科学
用法:通常在学科领域中使用,表示研究农业的学科
记法:agronomy是agro-(土地、农业)和-my(科学)组成的,可以结合记忆
agronomic ['ægərə'nɑːmɪk] adj. 农业的;农艺的
发音:/ˌægrəˈnɑːmɪk/
意思:农业的;农艺的
用法:通常在描述某个事物时使用,表示与农业或农艺有关
记法:agronomic由agronomy派生而来,结合记忆
varietal ['veərɪ'eɪt(ə)l] adj. 品种的;种类的
发音:/ˌveərɪˈet(ə)l/
意思:品种的;种类的
用法:通常在描述某个事物时使用,表示具有不同品种或种类
记法:varietal由variety(品种)和-al(形容词后缀)组成,结合记忆
agronomics是一个涉及农业科学和管理的跨学科领域,主要关注农业生产的物理、化学和生物现象。在agronomics中,涉及到许多物理现象,包括:
1. 土壤性质:土壤是农业生产的基础,其物理性质如质地、结构、孔隙度、水分和温度等都会影响农作物的生长。
2. 光照和温度:光照和温度是影响作物生长和发育的重要因素。不同作物需要不同类型和强度的光照,同时温度也对作物的生长和代谢产生影响。
3. 水分管理:水是植物生长和代谢所必需的元素,因此水分管理是agronomics中的一个重要方面。这包括灌溉时间和频率的确定,以及如何通过排水和土壤保湿来保持土壤湿度。
4. 机械力和化学物质:农业机械力和化学物质,如肥料、农药和除草剂等,也是agronomics中涉及的物理现象。
5. 农田生态系统:农田生态系统是一个复杂的生态系统,包括作物、土壤微生物、害虫、鸟类和其他生物,这些生物之间的相互作用对农作物的生长和产量产生影响。
综上所述,agronomics涉及到许多与物理现象相关的因素,这些因素对农业生产的质量和产量具有重要影响。
Title: Agronomy Management: Keys to Successful Farming
Agronomy is the science and art of optimizing crop production through the management of soil, water, and plant nutrients. It is essential for farmers to understand agronomy in order to maximize their yields and profitability. This article will explore some key agronomic principles and practices that can help farmers achieve successful farming.
1. Soil Management
Soil is the foundation of successful farming. Agronomists recommend regular soil testing to assess soil fertility and pH levels. Based on the results of these tests, farmers can apply fertilizers and other amendments to improve soil quality and fertility. In addition, soil tillage can improve soil structure and drainage, reducing soil erosion and increasing water infiltration.
2. Water Management
Water is a critical resource for agriculture. Agronomists recommend using water-efficient irrigation methods, such as drip irrigation, to minimize water waste and maximize crop production. In addition, farmers should monitor soil moisture levels and adjust water usage accordingly to avoid water scarcity or excessive moisture.
3. Plant Nutrient Management
Plant nutrients, such as nitrogen, phosphorus, and potassium (NPK), are essential for plant growth and crop production. Agronomists recommend applying fertilizers in accordance with crop needs and soil fertility levels. In addition, farmers can use organic fertilizers, such as manure and compost, to improve soil fertility and reduce the use of synthetic fertilizers.
4. Crop Rotation and Integrated Pest Management
Crop rotation and Integrated Pest Management (IPM) are agronomic practices that can help reduce pest populations and minimize the use of pesticides. Crop rotation involves changing crops in the same field to avoid pest buildup and promote soil health. IPM involves using a variety of non-toxic methods, such as crop covers, trap crops, and biological control agents, to manage pests without harming the environment or crops.
5. Environmental Sensitivity and Climate Change
Agronomists are also concerned with environmental sensitivity and climate change. Farmers should be aware of the impact of climate change on their crops and adapt their farming practices accordingly. For example, they can adopt water-saving irrigation methods, use drought-tolerant crops, and adapt their crop rotation patterns to adapt to changing weather patterns.
In conclusion, agronomy is essential for successful farming. By implementing soil management, water management, plant nutrient management, crop rotation, and IPM practices, farmers can improve their yields and profitability while also minimizing environmental impact. With a sound understanding of agronomy principles, farmers can adapt to the challenges of a changing climate and ensure sustainable agriculture for the future.