Relevance of Bacteria in Causing Rain and Snow.

Q3 Biochemistry, Genetics and Molecular Biology Recent patents on biotechnology Pub Date : 2024-10-01 DOI:10.2174/0118722083330941240910120542
Rimple Kaul, Sunita Devi, Megha Sharma, Subhash Chand
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Abstract

The Earth's climate is influenced by both natural phenomena (solar fluctuations, oceanic patterns, volcanic eruptions, and tectonic movements) and human activities (deforestation, CO and CO2 emissions, and desertification), all of which contribute to ongoing climate change and the resulting global warming. However, human actions are a major factor in exacerbating global warming and amplifying its adverse impacts worldwide. . With rising temperatures, water evaporation from water bodies and soils intensifies, leading to heightened water scarcity, particularly in drought-prone regions. This scarcity compounds rainfall deficits, posing significant challenges. Precipitation, essential for the biosphere's hydrological cycle, replenishes much of the world's freshwater. It occurs when condensed water vapor in the atmosphere falls back to Earth as rain, drizzle, sleet, graupel, hail, or snow due to gravity. Literature highlights the indispensable role of bacterial populations in this process, termed bio-precipitation. This phenomenon begins with bacterial colonization on plant surfaces, with colonies subsequently dispersed into the atmosphere by winds, triggering ice crystal formation. Through their ice nucleating property, these bacteria facilitate the growth of larger ice crystals, which eventually melt and precipitate as rain or snow. This mechanism aids in nutrient transfer from clouds to soil or vegetation. Pseudomonas syringae stands out as the most notable microorganism exhibiting this ice-nucleation property, serving as the primary source of ice nucleators driving bio-precipitation. Despite limited literature on "rain and snow-causing bacteria," this review comprehensively explores the conceptual background of bio-precipitation, the involved bioprocesses, and the critical role of bacteria like P. syringae, offering insights into future research directions.

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细菌与雨雪的相关性
地球气候受到自然现象(太阳波动、海洋模式、火山爆发和地壳运动)和人类活动(森林砍伐、二氧化碳和一氧化碳排放以及荒漠化)的影响,所有这些都导致了持续的气候变化和由此产生的全球变暖。然而,人类活动是加剧全球变暖并在全球范围内扩大其不利影响的主要因素。.随着气温升高,水体和土壤中的水分蒸发加剧,导致缺水现象加剧,尤其是在易旱地区。缺水加剧了降雨不足,带来了重大挑战。降水对生物圈的水文循环至关重要,它补充了世界上的大部分淡水。降水是指大气中凝结的水蒸气在重力作用下,以雨、细雨、雨夹雪、冰雹或雪的形式落回地球。文献强调了细菌种群在这一过程中不可或缺的作用,这一过程被称为生物沉淀。这种现象始于细菌在植物表面的定殖,随后菌落随风散布到大气中,引发冰晶的形成。这些细菌通过其冰核特性,促进更大冰晶的生长,最终融化并沉淀为雨雪。这种机制有助于养分从云层转移到土壤或植被。丁香假单胞菌(Pseudomonas syringae)是表现出这种冰核特性的最显著微生物,是驱动生物沉淀的冰核的主要来源。尽管有关 "致雨雪细菌 "的文献有限,但这篇综述全面探讨了生物沉淀的概念背景、所涉及的生物过程以及像丁香假单胞菌这样的细菌的关键作用,为未来的研究方向提供了启示。
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来源期刊
Recent patents on biotechnology
Recent patents on biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
2.90
自引率
0.00%
发文量
51
期刊介绍: Recent Patents on Biotechnology publishes review articles by experts on recent patents on biotechnology. A selection of important and recent patents on biotechnology is also included in the journal. The journal is essential reading for all researchers involved in all fields of biotechnology.
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