Department of Biology, University of Saskatchewan, Collaborative Science Research Building, 112 Science Place, Saskatoon, SK S7N 5E2, Canada.
Ontario Ministry of the Environment, Conservation and Parks, Dorset Environmental Science Centre, 1026 Bellwood Acres Road, Dorset, ON P0A 1E0, Canada.
Sci Total Environ. 2020 Jul 15;726:138400. doi: 10.1016/j.scitotenv.2020.138400. Epub 2020 Apr 8.
Long-term patterns in dissolved organic carbon (DOC) concentrations in 49 eastern Canadian lakes from four sites were re-examined with a ~ 35-year (~1980-2015) dataset. The study sites were Dorset (number of lakes, n = 8), Experimental Lakes Area (ELA, n = 4), Kejimkujik (n = 26) and Yarmouth (n = 11). Lake DOC patterns were synchronous within each site. However, comparisons of DOC patterns across sites showed that they were synchronous only between the Kejimkujik and Yarmouth locations. Hence, these two sites were pooled into a single Nova Scotia site (NS). Increases in DOC concentration were evident in Dorset, Ontario from 1988 (r = 0.78, p < 0.001) and NS from 2000 (r = 0.43, p = 0.006). DOC at the ELA in northwestern Ontario had a different pattern compared to the other sites, i.e., DOC had increased earlier (1983-2000), and then, unlike Dorset and NS, neither an increase nor decrease was detected between 2001 and 2015 (p = 0.78). Precipitation and sulfur deposition explained the greatest variance in DOC patterns at the Dorset and NS sites (i.e., precipitation: 21-49% and sulfur deposition: 24-54%). Precipitation was the most important driver of DOC at the ELA. Our results indicate that all the sites have gone through a process of increasing DOC, but at different times. The stabilizing pattern at the ELA since 2001 may suggest that DOC concentrations in ELA lakes have reached, or are approaching a new equilibrium, a phenomenon that was not observed at the other sites. Also, the increase in DOC was not always associated with declining sulfur deposition (e.g., ELA). Therefore, we conclude that there was considerable variation in DOC patterns across this large geographic region of Canada and potential drivers of these patterns were not consistent across these diverse sites.
对来自四个地点的 49 个加拿大东部湖泊的溶解有机碳 (DOC) 浓度进行了长达 35 年(约 1980-2015 年)的数据集重新分析。研究地点为多赛特(湖泊数量,n=8)、实验湖区(ELA,n=4)、基吉柯吉克(n=26)和雅茅斯(n=11)。每个地点的湖泊 DOC 模式都是同步的。然而,对不同地点之间的 DOC 模式进行比较后发现,只有基吉柯吉克和雅茅斯两个地点之间的模式是同步的。因此,这两个地点被合并为一个新斯科舍地点(NS)。多赛特和安大略省的 DOC 浓度从 1988 年开始明显增加(r=0.78,p<0.001),新斯科舍省从 2000 年开始增加(r=0.43,p=0.006)。安大略省西北部的 ELA 的 DOC 模式与其他地点不同,即 DOC 较早增加(1983-2000 年),然后,与多赛特和 NS 不同,在 2001 年至 2015 年期间,没有检测到增加或减少(p=0.78)。降水和硫沉积解释了多赛特和 NS 站点的 DOC 模式的最大变化(即降水:21-49%和硫沉积:24-54%)。降水是 ELA 地区 DOC 的最重要驱动因素。我们的结果表明,所有地点都经历了一个 DOC 增加的过程,但时间不同。自 2001 年以来,ELA 呈现稳定的模式可能表明 ELA 湖泊的 DOC 浓度已经达到或接近新的平衡,而其他地点则没有观察到这种现象。此外,DOC 的增加并不总是与硫沉积的减少有关(例如,ELA)。因此,我们得出结论,在加拿大这个广阔的地理区域内,DOC 模式存在很大差异,而这些模式的潜在驱动因素在这些不同的地点并不一致。
