geobotanists
简明释义
英[ˌdʒiːəʊbəʊˈtænɪsts]美[ˌdʒiəˈboʊtəˌnɪsts]
n. 植物地理学家(geobotany 的变形)
英英释义
单词用法
植物地理学家的研究 | |
植物地理学家和生态学家 | |
植物地理学家分析生态系统 | |
植物地理学家评估植物群落 |
同义词
反义词
| 城市生态学家 | Urban ecologists study the impact of cities on local ecosystems. | 城市生态学家研究城市对当地生态系统的影响。 | |
| 人类影响科学家 | Anthropogenic scientists focus on how human activities affect the environment. | 人类影响科学家专注于人类活动如何影响环境。 |
例句
1.The importance of units of the plant cover broader than the phytocoenose for classification is acknowledged by Soviet geobotanists.
认识到,比植物群落较广泛的植被单位对于分类的重要性。
2.The importance of units of the plant cover broader than the phytocoenose for classification is acknowledged by Soviet geobotanists.
认识到,比植物群落较广泛的植被单位对于分类的重要性。
3.By collaborating with ecologists, geobotanists 植物地理学家 can provide insights into ecosystem health.
通过与生态学家的合作,植物地理学家可以提供关于生态系统健康的见解。
4.The work of geobotanists 植物地理学家 is crucial in understanding how plant communities respond to climate change.
植物地理学家的工作对于理解植物群落如何应对气候变化至关重要。
5.The findings of geobotanists 植物地理学家 are essential for conservation efforts in endangered habitats.
植物地理学家的研究结果对于濒危栖息地的保护工作至关重要。
6.Many geobotanists 植物地理学家 use satellite imagery to analyze vegetation patterns over large areas.
许多植物地理学家利用卫星影像分析大面积的植被模式。
7.In remote areas, geobotanists 植物地理学家 often conduct field studies to map vegetation types.
在偏远地区,植物地理学家常常进行实地研究以绘制植被类型图。
作文
Geobotany is a fascinating field that combines the study of plants with the understanding of their geological environments. The professionals who specialize in this area are known as geobotanists. These scientists play a critical role in understanding how plants interact with their surroundings, especially in relation to soil types, climate conditions, and topography. By examining the distribution of plant species, geobotanists can provide insights into ecological patterns and processes. One of the primary objectives of geobotanists is to investigate how different plant species thrive in various geological settings. For example, certain plants may only grow in specific soil types, which can be rich in minerals or have unique pH levels. This relationship between plants and soil is crucial for conservation efforts, as it helps identify which species are vulnerable to habitat loss due to changes in land use or climate change. Moreover, geobotanists often work closely with ecologists and environmental scientists to assess the health of ecosystems. By mapping the distribution of plant species across different regions, they can identify areas that are biodiverse and those that are at risk. This information is vital for developing effective conservation strategies and ensuring that ecosystems remain resilient in the face of environmental challenges. In addition to fieldwork, geobotanists utilize various technological tools to analyze plant data. Geographic Information Systems (GIS) and remote sensing techniques allow them to visualize plant distributions and monitor changes over time. These technologies enhance their ability to predict how plant communities might respond to environmental changes, such as increased temperatures or altered precipitation patterns. The research conducted by geobotanists also has significant implications for agriculture and forestry. Understanding the geological factors that influence plant growth can lead to improved land management practices. For instance, farmers can benefit from knowing which crops are best suited for their specific soil types, leading to more sustainable agricultural practices. Similarly, forest managers can use this information to select tree species that are more likely to thrive in particular locations, promoting healthier forests. Another important aspect of the work done by geobotanists is their contribution to climate change studies. As climate change continues to alter weather patterns and affect ecosystems globally, understanding plant responses becomes increasingly crucial. By studying how different species adapt to changing conditions, geobotanists can help predict which plants may survive or decline in the future. This knowledge is essential for developing strategies to mitigate the impacts of climate change on biodiversity. In conclusion, geobotanists are essential contributors to our understanding of the intricate relationships between plants and their geological environments. Their research not only aids in conservation efforts but also informs agricultural practices and climate change adaptation strategies. As we face growing environmental challenges, the work of geobotanists will continue to be vital in preserving our planet's biodiversity and ensuring sustainable land use practices. The integration of plant science and geology through the lens of geobotanists offers valuable insights that can guide future efforts in environmental stewardship and resource management.
地植物学是一个迷人的领域,它结合了植物的研究和对其地质环境的理解。专门从事这一领域的专业人士被称为地植物学家。这些科学家在理解植物如何与周围环境相互作用方面发挥着重要作用,特别是在土壤类型、气候条件和地形方面。通过研究植物物种的分布,地植物学家可以提供生态模式和过程的见解。地植物学家的主要目标之一是调查不同植物物种如何在各种地质环境中生长。例如,某些植物可能只在特定的土壤类型中生长,这些土壤可能富含矿物质或具有独特的pH值。这种植物与土壤之间的关系对于保护工作至关重要,因为它有助于识别哪些物种由于土地利用或气候变化而面临栖息地丧失的脆弱性。此外,地植物学家通常与生态学家和环境科学家密切合作,以评估生态系统的健康。通过绘制不同地区植物物种的分布,他们可以识别出生物多样性丰富的区域和面临风险的区域。这些信息对于制定有效的保护策略至关重要,并确保生态系统在面临环境挑战时保持韧性。除了实地工作外,地植物学家还利用各种技术工具来分析植物数据。地理信息系统(GIS)和遥感技术使他们能够可视化植物分布并监测随时间的变化。这些技术增强了他们预测植物群落如何应对环境变化(例如温度上升或降水模式改变)的能力。地植物学家进行的研究还对农业和林业产生重要影响。了解影响植物生长的地质因素可以改善土地管理实践。例如,农民可以受益于了解哪些作物最适合他们特定的土壤类型,从而促进更可持续的农业实践。同样,森林管理者可以利用这些信息选择更可能在特定地点生长的树种,促进更健康的森林。地植物学家工作中的另一个重要方面是他们对气候变化研究的贡献。随着气候变化继续改变天气模式并影响全球生态系统,了解植物的反应变得越来越重要。通过研究不同物种如何适应变化的条件,地植物学家可以帮助预测哪些植物可能在未来生存或衰退。这一知识对于制定减轻气候变化对生物多样性影响的策略至关重要。总之,地植物学家是我们理解植物与其地质环境之间复杂关系的重要贡献者。他们的研究不仅有助于保护工作,还为农业实践和气候变化适应策略提供了信息。随着我们面临日益严重的环境挑战,地植物学家的工作将继续在保护地球生物多样性和确保可持续土地使用实践方面发挥重要作用。通过地植物学家的视角将植物科学与地质学结合,提供了宝贵的见解,可以指导未来在环境管理和资源管理方面的努力。
