{"title":"Effect of volcanic ash on GHG production rates and soil properties in a drained peat soil compared to wood ash","authors":"M. Maljanen, M. Liimatainen, B. Sigurdsson","doi":"10.16886/IAS.2015.03","DOIUrl":null,"url":null,"abstract":"INTRODUCTION Past volcanic eruptions in Iceland have sometimes led to long-distance distribution of fine volcanic tephra (volcanic ash). Evidence for volcanic ash from, for example, the ca. 4250 BP eruption in Hekla (H4) and the 17831784 AD Laki eruption in southern Iceland has been found in wetlands at Svalbard (Kekonen et al. 2005), Scotland (Charman et al. 1995) and Scandinavia (Thorarinsson 1981). Basaltic volcanic ash contains several compounds, e.g. mixed sulphates, ammonium (NH4 +) and nitrate (NO3 -) (Ayris and Delmelle 2012), all of which have the potential to affect various soil processes, such as N cycling and greenhouse gas (GHG) production. Such direct effects of long distance volcanic ash transport have, however, been little studied so far. The Eyjafjallajokull volcano eruption started in Iceland in March, 2010. A major outbreak of the central crater under the covering ice cap started on 14 April and continued until 24 May, ejecting a very large amount of gases and fine ash into the atmosphere. This ash contained mainly silicon dioxide, but also other compounds including sulphates (O’Dowd et al. 2012). This eruption gave us an opportunity to study the fresh volcanic ash and its effects on soil properties. Because this volcanic ash was alkaline, it could increase soil pH and affect the microbiological processes behind GHG emissions in a similar way to that suggested for wood ash (Maljanen et al. 2014, Klemedtsson et al. 2010). We used fresh volcanic ash from the Eyjafjallajokull volcano in a laboratory experiment conducted on samples of drained peat soil from western Finland that were also used for studying the effects of wood ash recycling from bioenergy power plants (Maljanen et al. 2014). The aim of this study was to test whether this volcanic ash affected GHG production rates in drained peat soil in our laboratory incubation experiments and to compare the results with wood ash.","PeriodicalId":50396,"journal":{"name":"Icelandic Agricultural Sciences","volume":"28 1","pages":"25-28"},"PeriodicalIF":0.2000,"publicationDate":"2015-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Icelandic Agricultural Sciences","FirstCategoryId":"97","ListUrlMain":"https://doi.org/10.16886/IAS.2015.03","RegionNum":4,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"AGRICULTURE, MULTIDISCIPLINARY","Score":null,"Total":0}
引用次数: 0
Abstract
INTRODUCTION Past volcanic eruptions in Iceland have sometimes led to long-distance distribution of fine volcanic tephra (volcanic ash). Evidence for volcanic ash from, for example, the ca. 4250 BP eruption in Hekla (H4) and the 17831784 AD Laki eruption in southern Iceland has been found in wetlands at Svalbard (Kekonen et al. 2005), Scotland (Charman et al. 1995) and Scandinavia (Thorarinsson 1981). Basaltic volcanic ash contains several compounds, e.g. mixed sulphates, ammonium (NH4 +) and nitrate (NO3 -) (Ayris and Delmelle 2012), all of which have the potential to affect various soil processes, such as N cycling and greenhouse gas (GHG) production. Such direct effects of long distance volcanic ash transport have, however, been little studied so far. The Eyjafjallajokull volcano eruption started in Iceland in March, 2010. A major outbreak of the central crater under the covering ice cap started on 14 April and continued until 24 May, ejecting a very large amount of gases and fine ash into the atmosphere. This ash contained mainly silicon dioxide, but also other compounds including sulphates (O’Dowd et al. 2012). This eruption gave us an opportunity to study the fresh volcanic ash and its effects on soil properties. Because this volcanic ash was alkaline, it could increase soil pH and affect the microbiological processes behind GHG emissions in a similar way to that suggested for wood ash (Maljanen et al. 2014, Klemedtsson et al. 2010). We used fresh volcanic ash from the Eyjafjallajokull volcano in a laboratory experiment conducted on samples of drained peat soil from western Finland that were also used for studying the effects of wood ash recycling from bioenergy power plants (Maljanen et al. 2014). The aim of this study was to test whether this volcanic ash affected GHG production rates in drained peat soil in our laboratory incubation experiments and to compare the results with wood ash.
冰岛过去的火山爆发有时会导致细小的火山火山灰远距离分布。例如,在斯瓦尔巴群岛(Kekonen et al. 2005)、苏格兰(Charman et al. 1995)和斯堪的纳维亚(Thorarinsson 1981)的湿地中发现了大约4250 BP的Hekla火山喷发(H4)和公元17831784年冰岛南部Laki火山喷发的火山灰证据。玄武岩火山灰含有多种化合物,如混合硫酸盐、铵(NH4 +)和硝酸盐(NO3 -) (Ayris和Delmelle 2012),所有这些都有可能影响各种土壤过程,如氮循环和温室气体(GHG)产生。然而,到目前为止,对远距离火山灰运输的这种直接影响的研究还很少。2010年3月,冰岛埃亚菲亚德拉火山爆发。4月14日开始,一直持续到5月24日,冰盖下的中央火山口发生了一次大爆发,向大气中喷射出大量气体和细火山灰。这种灰烬主要含有二氧化硅,但也含有硫酸盐等其他化合物(O 'Dowd et al. 2012)。这次喷发使我们有机会研究新鲜的火山灰及其对土壤性质的影响。由于这种火山灰是碱性的,它可能会增加土壤pH值,并以类似于木灰的方式影响温室气体排放背后的微生物过程(Maljanen et al. 2014, Klemedtsson et al. 2010)。我们在实验室实验中使用了来自Eyjafjallajokull火山的新鲜火山灰,对芬兰西部的排水泥炭土样本进行了实验,该样本也用于研究生物能源发电厂木灰回收的影响(Maljanen et al. 2014)。本研究的目的是在我们的实验室孵化实验中测试这种火山灰是否影响排干泥炭土的温室气体产生速率,并将结果与木灰进行比较。
期刊介绍:
Icelandic Agricultural Sciences is published annually, or more frequently. The deadline for submitting manuscripts that are intended to appear within that year is September. The journal is in English and is refereed and distributed internationally. It publishes original articles and reviews written by researchers throughout the world on any aspect of applied life sciences that are relevant under boreal, alpine, arctic or subarctic conditions. Relevant subjects include e.g. any kind of environmental research, farming, breeding and diseases of plants and animals, hunting and fisheries, food science, forestry, soil conservation, ecology of managed and natural ecosystems, geothermal ecology, etc.
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