Quantification of symbiotically fixed N2 by faba bean and allocation of 15N among above- and below-ground components of faba bean, canola, and barley on a Gray Luvisol
{"title":"Quantification of symbiotically fixed N2 by faba bean and allocation of 15N among above- and below-ground components of faba bean, canola, and barley on a Gray Luvisol","authors":"J. Gu, W. McGill","doi":"10.26789/AEB.2018.01.004","DOIUrl":null,"url":null,"abstract":"This study was carried out to estimate N-15 allocation into different components of the above- and below-ground plant parts, and to quantify biological N-fixation in faba bean using N-15 dilution method, and both canola and barley as reference crops. Four samplings were conducted during the crop growing season, both above- and below-ground plant parts, and soil were sampled. The above-ground plant was fractionated into leaves, stems, shell, and seeds for faba bean and canola; and dead-leaves, live-leaves, stems, sheaths, husks, and seeds for barley. Roots were extracted from soil by root-washing technique and further separated from dead debris by water floatation and hand-picking. N-15 excess of faba bean above-ground parts was lower than its roots, but the reverse was true for the non-legumes (canola and barley). N-15 fractionation was apparently taking place in various plant parts. Reproductive organs of faba bean had lower N-15 excess than the vegetative ones, but reproductive organs of non-legumes (canola and barley) had higher N-15 excess than the vegetative ones. N-fixation in faba bean was quantified by using N-15 dilution method with either canola or barley as a reference crop, the quantity of N derived from atmospheric fixation was 183-199 kg N/ha/yr in the above-ground parts of faba bean and 18-22 kg N/ha/yr in faba bean roots by September 1, when faba beans were not fully matured. Either canola or barley can be a valid reference crop for N-fixation estimation in N-15 dilution method. Total difference method agreed with N-15 dilution method with less than 10% variation in this study. A peak of N-fixation was observed after faba bean flowering and the rate of N-fixation during this period was 4.0-4.7 kg N /ha/day. This study provides the key inofmration for the quantity of N-fixation from atmosphere in faba bean growing on this soil of Canada.","PeriodicalId":36987,"journal":{"name":"Applied Environmental Biotechnology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2018-03-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Applied Environmental Biotechnology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.26789/AEB.2018.01.004","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"Agricultural and Biological Sciences","Score":null,"Total":0}
引用次数: 0
Abstract
This study was carried out to estimate N-15 allocation into different components of the above- and below-ground plant parts, and to quantify biological N-fixation in faba bean using N-15 dilution method, and both canola and barley as reference crops. Four samplings were conducted during the crop growing season, both above- and below-ground plant parts, and soil were sampled. The above-ground plant was fractionated into leaves, stems, shell, and seeds for faba bean and canola; and dead-leaves, live-leaves, stems, sheaths, husks, and seeds for barley. Roots were extracted from soil by root-washing technique and further separated from dead debris by water floatation and hand-picking. N-15 excess of faba bean above-ground parts was lower than its roots, but the reverse was true for the non-legumes (canola and barley). N-15 fractionation was apparently taking place in various plant parts. Reproductive organs of faba bean had lower N-15 excess than the vegetative ones, but reproductive organs of non-legumes (canola and barley) had higher N-15 excess than the vegetative ones. N-fixation in faba bean was quantified by using N-15 dilution method with either canola or barley as a reference crop, the quantity of N derived from atmospheric fixation was 183-199 kg N/ha/yr in the above-ground parts of faba bean and 18-22 kg N/ha/yr in faba bean roots by September 1, when faba beans were not fully matured. Either canola or barley can be a valid reference crop for N-fixation estimation in N-15 dilution method. Total difference method agreed with N-15 dilution method with less than 10% variation in this study. A peak of N-fixation was observed after faba bean flowering and the rate of N-fixation during this period was 4.0-4.7 kg N /ha/day. This study provides the key inofmration for the quantity of N-fixation from atmosphere in faba bean growing on this soil of Canada.
本研究旨在估计N-15在地上和地下植物部分不同成分中的分配,并使用N-15稀释法量化蚕豆的生物固氮,以油菜和大麦为参考作物。在作物生长季节进行了四次采样,包括地上和地下植物部分,并对土壤进行了采样。地上植物被分成叶子、茎、壳和种子,用于蚕豆和油菜;大麦的枯叶、活叶、茎、鞘、壳和种子。采用洗根技术从土壤中提取根系,并采用气浮和手工采摘的方法从死渣中进一步分离。地上部分蚕豆的N-15过量量低于其根部,但非豆类作物(油菜和大麦)的情况正好相反。N-15的分馏作用明显发生在植物的各个部位。蚕豆生殖器官的N-15含量低于营养器官,而非豆类(油菜和大麦)生殖器官的氮-15含量高于营养器官。以油菜或大麦为参考作物,采用N-15稀释法对蚕豆的氮固定进行定量,到9月1日蚕豆还没有完全成熟时,蚕豆地上部分的大气固定氮量为183-199 kg N/ha/yr,蚕豆根部的氮量为18-22 kg N/ha/yr。在N-15稀释法中,油菜或大麦都可以作为估算固氮的有效参考作物。总差值法与N-15稀释法一致,在本研究中变化小于10%。蚕豆开花后出现固氮高峰,在此期间的固氮率为4.0-4.7kg/ha/天。本研究为在加拿大这片土地上生长的蚕豆大气固氮量的确定提供了关键。