auxanometer

简明释义

英[ˌɔːksəˈnɒmɪtə]美[ˌɔksəˈnɑmətər]

n. [生物] 生长计，植物生长过程测定器

英英释义

单词用法

同义词

反义词

例句

1.Auxanometer an instrument designed to measure the increase in length of a plant part.

植物生长测定器(生长计)：专门设计出的一种用来测量植物体长度增长的仪器。

2.Auxanometer an instrument designed to measure the increase in length of a plant part.

植物生长测定器(生长计)：专门设计出的一种用来测量植物体长度增长的仪器。

3.The scientist used an auxanometer to measure the growth rate of the plant over several weeks.

科学家使用auxanometer来测量植物在几周内的生长速度。

4.In the laboratory, an auxanometer is essential for accurately tracking the increase in biomass.

在实验室中，auxanometer对于准确跟踪生物量的增加至关重要。

5.Researchers employed an auxanometer to determine how different fertilizers affected plant growth.

研究人员使用auxanometer来确定不同肥料对植物生长的影响。

6.The auxanometer provided precise readings that helped confirm the hypothesis about growth patterns.

该auxanometer提供的精确读数帮助确认了关于生长模式的假设。

7.Using an auxanometer, the students conducted a project on how light affects plant height.

学生们使用auxanometer进行了一项关于光线如何影响植物高度的项目。

作文

In the field of botany, understanding plant growth is essential for both scientific research and agricultural practices. One of the tools that researchers use to measure the growth of plants is called an auxanometer. An auxanometer (生长计) is an instrument designed to measure the increase in length or mass of a plant over time. This device plays a crucial role in studying various aspects of plant physiology, including how environmental factors such as light, temperature, and water availability affect growth rates. The auxanometer can be used in various experimental setups, allowing scientists to gather quantitative data on plant growth. For example, researchers might set up an experiment where they grow two groups of the same plant species under different light conditions. By using an auxanometer, they can accurately measure the differences in growth between the two groups. This data can help them understand how light intensity impacts photosynthesis and overall plant health. Moreover, the auxanometer is not limited to measuring just the height of plants; it can also be used to monitor the growth of roots. Root growth is critical for nutrient absorption and stability in soil, and understanding root development can lead to better agricultural practices. By utilizing an auxanometer, researchers can gain insights into how different soil types or moisture levels influence root growth, which is vital for crop yield. In addition to its practical applications in agriculture, the auxanometer is also valuable in educational settings. Students studying plant biology can use this instrument to conduct experiments and observe the growth patterns of various plants. Hands-on experience with an auxanometer can enhance their understanding of plant biology concepts, such as growth rates and the effects of environmental variables. The importance of the auxanometer extends beyond academic research and education. In commercial agriculture, farmers can use this tool to monitor the growth of their crops, allowing them to make informed decisions regarding irrigation, fertilization, and pest management. By tracking growth rates with an auxanometer, farmers can optimize their practices to ensure maximum yield and sustainability. In conclusion, the auxanometer is a vital instrument in the study of plant growth and development. Its ability to provide accurate measurements of plant growth allows researchers, educators, and farmers to better understand and manage plant health. As we continue to face challenges related to food security and environmental sustainability, tools like the auxanometer will play an increasingly important role in advancing our knowledge and improving agricultural practices. Understanding how to effectively use an auxanometer can lead to significant advancements in both science and agriculture, ultimately benefiting society as a whole.

在植物学领域，理解植物生长对科学研究和农业实践至关重要。研究人员使用的工具之一是称为auxanometer（生长计）的仪器。auxanometer是一种旨在测量植物随时间增加的长度或质量的仪器。该设备在研究植物生理的各个方面中发挥着关键作用，包括环境因素如光照、温度和水分可用性如何影响生长速率。 auxanometer可以用于各种实验设置，使科学家能够收集植物生长的定量数据。例如，研究人员可能会设置一个实验，在不同光照条件下生长两组相同植物种类。通过使用auxanometer，他们可以准确测量两组之间的生长差异。这些数据可以帮助他们理解光强度如何影响光合作用和整体植物健康。 此外，auxanometer不仅限于测量植物的高度；它还可以用于监测根系的生长。根系生长对于养分吸收和土壤稳定至关重要，了解根系发育可以导致更好的农业实践。通过利用auxanometer，研究人员可以深入了解不同土壤类型或水分水平如何影响根系生长，这对于作物产量至关重要。 除了在农业中的实际应用外，auxanometer在教育环境中也具有重要价值。学习植物生物学的学生可以使用该仪器进行实验，观察各种植物的生长模式。使用auxanometer进行实践经验可以增强他们对植物生物学概念的理解，如生长速率和环境变量的影响。 auxanometer的重要性超出了学术研究和教育。在商业农业中，农民可以使用这种工具来监测作物的生长，从而做出关于灌溉、施肥和害虫管理的明智决策。通过使用auxanometer跟踪生长速率，农民可以优化他们的实践，以确保最大产量和可持续性。 总之，auxanometer是研究植物生长和发育的重要仪器。它提供的植物生长的准确测量使研究人员、教育工作者和农民能够更好地理解和管理植物健康。随着我们继续面临与粮食安全和环境可持续性相关的挑战，像auxanometer这样的工具将在推动我们的知识和改善农业实践方面发挥越来越重要的作用。有效理解和使用auxanometer可以在科学和农业上取得显著进展，最终惠及整个社会。