accumulated temperature

简明释义

积温

英英释义

例句

1.The accumulated temperature during the growing season is crucial for determining harvest time.

生长季节的累积温度对确定收获时间至关重要。

2.The vineyard owner monitored the accumulated temperature to predict grape ripening.

葡萄园主人监测累积温度以预测葡萄成熟。

3.The farmer checked the accumulated temperature to determine the best time for planting crops.

农民检查了累积温度以确定最佳种植时间。

4.In climate studies, researchers often analyze accumulated temperature to assess plant growth patterns.

在气候研究中，研究人员经常分析累积温度以评估植物生长模式。

5.Farmers use accumulated temperature data to make decisions about pesticide application.

农民使用累积温度数据来决定施用农药的时机。

作文

The concept of accumulated temperature is crucial in various fields, particularly in agriculture and climate science. It refers to the total temperature that a particular area experiences over a specific period, usually measured during the growing season of plants. This measurement helps farmers and scientists understand how temperature influences plant growth and agricultural productivity. For instance, certain crops require a minimum amount of accumulated temperature to germinate and grow properly. By calculating this parameter, farmers can optimize planting times and improve yields. In agriculture, the accumulated temperature is often calculated by summing the daily average temperatures above a baseline, typically set at 10 degrees Celsius for many crops. This method allows for a more accurate assessment of the thermal environment that crops experience. For example, if the average temperature for a week is 15 degrees Celsius, the accumulated temperature for that week would be calculated by taking the difference between the daily averages and the baseline, which could provide valuable insights into how well the crops are likely to perform. Furthermore, understanding accumulated temperature is essential for predicting the timing of flowering and fruiting in plants. Different species have varying requirements for accumulated temperature, which means that a rise in temperature due to climate change could lead to earlier blooming and potentially disrupt the synchronization between plants and their pollinators. This disruption can have severe consequences for biodiversity and food production. Climate scientists also utilize the concept of accumulated temperature to model and predict climate patterns. By analyzing historical data on temperature accumulation, researchers can identify trends and make projections about future climate scenarios. This information is vital for policymakers and environmentalists who are working to mitigate the impacts of climate change. For instance, if a region is projected to experience higher accumulated temperature levels in the coming years, it may face increased risks of drought or heatwaves, necessitating adaptive strategies in water management and crop selection. In conclusion, the idea of accumulated temperature serves as a bridge between environmental science and practical applications in agriculture. It provides a framework for understanding how temperature affects plant growth and helps in making informed decisions regarding crop management and climate adaptation. As global temperatures continue to rise, grasping the implications of accumulated temperature will become increasingly important for ensuring food security and maintaining ecological balance. Farmers, scientists, and policymakers must work together to monitor and respond to changes in accumulated temperature to safeguard our agricultural systems and the environment. Overall, the significance of accumulated temperature extends beyond mere numbers; it encapsulates the intricate relationships between climate, agriculture, and ecosystem health. As we delve deeper into this concept, we can better prepare for the challenges posed by a changing climate and strive towards sustainable agricultural practices that benefit both the planet and its inhabitants.

‘积累温度’的概念在各个领域中都至关重要，特别是在农业和气候科学中。它指的是特定地区在特定时期内（通常是在植物的生长季节）所经历的总温度。这一测量帮助农民和科学家理解温度如何影响植物生长和农业生产力。例如，某些作物需要最低的‘积累温度’才能正常发芽和生长。通过计算这一参数，农民可以优化播种时间并提高产量。在农业中，‘积累温度’通常通过将每天的平均温度与基线（通常设定为10摄氏度）之上的温度相加来计算。这种方法能够更准确地评估作物所经历的热环境。例如，如果一周的平均温度为15摄氏度，那么该周的‘积累温度’将通过取每日平均值与基线之间的差值进行计算，这可以提供有关作物表现的宝贵见解。此外，了解‘积累温度’对于预测植物的开花和结果时间至关重要。不同物种对‘积累温度’有不同的要求，这意味着由于气候变化而导致的温度上升可能会导致开花时间提前，从而潜在地破坏植物与其授粉者之间的同步。这种干扰可能对生物多样性和粮食生产产生严重后果。气候科学家也利用‘积累温度’的概念来建模和预测气候模式。通过分析历史的温度积累数据，研究人员可以识别趋势并对未来的气候情景做出预测。这些信息对政策制定者和环保人士来说至关重要，他们正在努力减轻气候变化的影响。例如，如果一个地区预计在未来几年将经历更高的‘积累温度’水平，则可能面临干旱或热浪的增加风险，这就需要在水管理和作物选择方面采取适应性策略。总之，‘积累温度’的概念在环境科学与农业实践之间架起了一座桥梁。它提供了一个框架，用于理解温度如何影响植物生长，并帮助做出有关作物管理和气候适应的明智决策。随着全球温度的持续上升，掌握‘积累温度’的意义将变得越来越重要，以确保粮食安全和维护生态平衡。农民、科学家和政策制定者必须共同努力，监测和应对‘积累温度’的变化，以保护我们的农业系统和环境。总体而言，‘积累温度’的重要性超越了单纯的数字；它概括了气候、农业和生态系统健康之间的复杂关系。随着我们对这一概念的深入探讨，我们能够更好地为应对气候变化带来的挑战做好准备，并努力实现可持续的农业实践，以造福地球及其居民。