tillering
简明释义
n. [植]分蘖;发棵
v. [植]分蘖;长出新芽(tiller 的 ing 形式)
英英释义
The process by which a plant produces additional shoots or stems from its base, often seen in grasses and cereals. | 植物从基部产生额外的芽或茎的过程,通常出现在草类和谷物中。 |
单词用法
旋耕机;旋转耕耘机;旋转式翻土机 |
同义词
| 分枝 | 植物正在分枝以最大化阳光照射。 | ||
| 发芽 | 当生长条件适宜时,发芽会发生。 | ||
| 萌芽 | 萌芽对新植物的建立至关重要。 |
反义词
| 休眠 | The plant entered a state of dormancy during the winter months. | 植物在冬季进入了休眠状态。 | |
| 停滞 | The project's stagnation led to a lack of progress and innovation. | 项目的停滞导致了缺乏进展和创新。 |
例句
1.The rice height, effective tillering and blighted grains increased as the fertilizer was increased.
水稻株高、有效分蘖、空秕率均随施肥量增加而增加。
2.Meanwhile, tillering is a specific branching characteristic during rice growth and development.
同时,分蘖又是水稻生长发育过程中的一种特殊的分枝现象。
3.The results show a great variation in methane emission during the rice growing season, and the peak values appear during tillering period and fruiting period.
结果表明:在水稻生医季节甲烷排放通量变化很大,在分蘖期和成熟期一般会出现峰值。
4.The low Gramineae pollen value may relate with its tillering reproduction.
禾本科花粉的低代表性可能与其分蘖繁殖、花粉产量低有关。
5.I thought I was going to be able to start tillering today, but I don't know what I was thinking.
我想我今天已经可以开始做逐渐变厚处了。但我不知道我怎么想。
6.Once you start tillering, whatever imperfections you had will be taken care of.
当你开始做叠加手把,任何不完整的你都要注意小心。
7.There are other technical methods, such as root-cutting, tillering, grafting, tissue culturing and other methods.
其他育苗技术还有分根、分蘖、嫁接、组织培养等方法。
8.Proper irrigation can enhance tillering in barley crops.
适当的灌溉可以增强大麦作物的分蘖。
9.In wheat cultivation, tillering can affect the overall biomass.
在小麦种植中,分蘖会影响整体生物量。
10.The process of tillering is crucial for the growth of rice plants.
对于水稻的生长,分蘖过程至关重要。
11.The timing of tillering is essential for maximizing crop production.
分蘖的时机对于最大化作物生产至关重要。
12.Farmers monitor tillering to ensure optimal yield.
农民监测分蘖以确保最佳产量。
作文
Tillering is a crucial process in the growth of certain plants, particularly in cereals such as rice and wheat. This phenomenon occurs when the main stem of the plant produces additional shoots or tillers, which can significantly increase the yield of the crop. Understanding the mechanics of tillering (分蘖) is essential for farmers and agricultural scientists alike, as it plays a vital role in determining the overall productivity of the crop. In this essay, I will explore the factors that influence tillering (分蘖), its benefits, and the implications it has on agricultural practices.The process of tillering (分蘖) begins after the plant reaches a certain stage of maturity, usually when it has developed a few leaves. The conditions that promote tillering (分蘖) include adequate soil moisture, optimal temperature, and sufficient sunlight. For instance, in rice cultivation, the timing of irrigation is critical. If water is provided at the right time, it encourages the plant to develop more tillers, leading to a bushier appearance and a greater number of potential grain-bearing stems.Another important factor influencing tillering (分蘖) is the density of planting. When plants are spaced too closely together, competition for resources can lead to a decrease in the number of tillers produced. Conversely, if plants are spaced too far apart, they may not utilize the available nutrients efficiently. Therefore, finding the right balance in plant density is key to maximizing tillering (分蘖) and, ultimately, crop yield.The benefits of tillering (分蘖) cannot be overstated. More tillers mean more stems, and more stems can translate into more grains harvested. This is particularly important in regions where food security is a concern. By enhancing tillering (分蘖) through proper agricultural techniques, farmers can improve their harvests, thereby contributing to local and global food supplies. Moreover, understanding how to manipulate tillering (分蘖) can lead to more sustainable farming practices, as it allows for better resource management.In addition to its agricultural significance, tillering (分蘖) also has ecological implications. Plants that exhibit robust tillering (分蘖) can help prevent soil erosion by providing a denser root system that holds the soil in place. This is particularly beneficial in areas prone to heavy rainfall or wind. Furthermore, crops that effectively utilize tillering (分蘖) can outcompete weeds, reducing the need for chemical herbicides and promoting a healthier ecosystem.In conclusion, tillering (分蘖) is a vital aspect of plant growth that has significant implications for agriculture and ecology. By understanding the factors that influence tillering (分蘖), farmers can optimize their practices to enhance crop yields and contribute to sustainable farming efforts. As we continue to face challenges related to food security and environmental sustainability, the importance of mastering the art of tillering (分蘖) becomes increasingly clear. Through research and innovation, we can unlock the full potential of this natural process and ensure a more secure future for our global food systems.
分蘖是某些植物生长过程中的一个关键环节,尤其是在水稻和小麦等谷物中。这种现象发生在植物的主茎产生额外的枝条或分蘖时,这可以显著增加作物的产量。理解tillering(分蘖)的机制对农民和农业科学家来说都是至关重要的,因为它在决定作物的整体生产力方面发挥着重要作用。在这篇文章中,我将探讨影响tillering(分蘖)的因素、它的好处以及它对农业实践的影响。tillering(分蘖)过程开始于植物达到一定的成熟阶段,通常是在它发展出几片叶子之后。促进tillering(分蘖)的条件包括适宜的土壤湿度、最佳温度和充足的阳光。例如,在水稻种植中,灌溉的时机至关重要。如果在合适的时间提供水分,就会鼓励植物产生更多的分蘖,从而形成更蓬松的外观和更多潜在的结穗茎。另一个影响tillering(分蘖)的重要因素是种植密度。当植物过于密集地种植时,资源竞争可能导致产生的分蘖数量减少。相反,如果植物种得太远,它们可能无法有效利用可用的养分。因此,找到适当的植物密度平衡是最大化tillering(分蘖)和最终作物产量的关键。tillering(分蘖)的好处不容小觑。更多的分蘖意味着更多的茎,而更多的茎可以转化为更多的收获粮食。这在食品安全受到关注的地区尤为重要。通过适当的农业技术来增强tillering(分蘖),农民可以改善他们的收成,从而为当地和全球的粮食供应做出贡献。此外,理解如何操控tillering(分蘖)可以导致更可持续的农业实践,因为这使得更好的资源管理成为可能。除了其农业意义外,tillering(分蘖)也具有生态意义。表现出强大tillering(分蘖)的植物可以通过提供更密集的根系来帮助防止土壤侵蚀,从而牢牢固定土壤。这在容易遭受大雨或风的地区尤其有益。此外,有效利用tillering(分蘖)的作物可以与杂草竞争,从而减少对化学除草剂的需求,促进更健康的生态系统。总之,tillering(分蘖)是植物生长的一个重要方面,对农业和生态都有重要影响。通过理解影响tillering(分蘖)的因素,农民可以优化他们的实践,以提高作物产量并促进可持续农业努力。随着我们继续面临与食品安全和环境可持续性相关的挑战,掌握tillering(分蘖)艺术的重要性变得愈加明显。通过研究和创新,我们可以释放这一自然过程的全部潜力,确保全球食品系统的未来更加安全。
