鲑鱼营养物质对加拿大不列颠哥伦比亚省中央海岸河岸土壤化学和土壤肥力的影响

IF 2.7 3区 农林科学 Q2 ECOLOGY
Allen Larocque, Suzanne Winette Simard
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引用次数: 0

摘要

每年,鲑鱼都会回到它们的出生地溪流产卵。它们的回归代表着生态系统将养分和能量从海洋输送到陆地;这些物质进入陆地食物网、植物群落和森林土壤。在这里,我们通过对加拿大不列颠哥伦比亚省中央海岸 Haíɫzaqv (Heiltsuk) 民族领地的土壤取样,测试了鲑鱼输入对土壤肥力的长期影响。通过两种取样方法,共对 20 种土壤化学性质进行了评估:第一种是在 23 个流域取样,这些流域代表了鲑鱼密度的区域梯度(每年每米溪流的鲑鱼数量);第二种是在阻碍鲑鱼洄游的瀑布上方和下方的四个地点取样。每个取样点都收集了两个深度的土壤材料。区域梯度多变量分析表明,鲑鱼密度、苔藓群落和灌木群落是与土壤化学有关的重要因素。同样,瀑布上方或下方、苔藓群落和树木群落在瀑布比较中也很重要。沿区域鲑鱼密度梯度的广义线性混合模型显示,硝酸盐(NO3-)的增加与鲑鱼的摄入量有关(p < 0.05),铵(NH4+)、磷(P)、铝(Al)和铜(Cu)的增加也有中等程度的影响(p < 0.1)。净阳离子交换容量(CEC)没有变化;但是,镁(Mg)沿这些梯度明显下降(p < 0.05),而钠(Na)呈下降趋势,钙(Ca)呈上升趋势。位于阻挡鲑鱼的瀑布下方或瀑布下方的鲑鱼密度是总氮、硝酸盐、铵、磷、总硫(S)、镁和钠浓度较高的一个因素;瀑布下方地点的 pH 值和铝浓度也较低。利用随机森林模型对区域梯度数据进行了探索性分析,结果表明土壤深度、苔藓群落、灌木群落、鲑鱼密度和与溪流的距离具有重要影响。这些结果表明,鲑鱼的输入与受体土壤的一系列变化相关,这些变化与这些地点肥力提高的解释是一致的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Legacy of salmon-derived nutrients on riparian soil chemistry and soil fertility on the Central Coast of British Columbia, Canada
Every year, salmon return to their natal streams to spawn. Their return represents an ecosystem subsidy of nutrients and energy from the sea to the land; these materials feed into terrestrial food webs, plant communities, and forest soils. Here we test the long term effects of salmon inputs on soil fertility by sampling soils from Haíɫzaqv (Heiltsuk) Nation territory on the Central Coast of British Columbia, Canada. A total of 20 soil chemical properties were assessed via two sampling methodologies: first, across 23 watersheds representing a regional gradient of salmon density (kg of salmon per meter of stream reach per year); and second, at four sites above and below waterfalls that blocked salmon migration. At each sampling point, soil material at two depths was collected. Multivariate analysis regional gradient showed salmon density, the moss community, and the shrub community to be significant factors related to soil chemistry. Similarly, being above or below the waterfall, the moss community, and the tree community were significant in the waterfall comparison. Generalized linear mixed models along regional salmon density gradient showed an increase in nitrate (NO3−) correlated with salmon inputs (p < 0.05), and moderately significant (p < 0.1) increases in ammonium (NH4+), phosphorus (P), aluminum (Al), and copper (Cu). Net cation exchange capacity (CEC) did not change; however, magnesium (Mg) significantly decreased along these gradients (p < 0.05), while sodium (Na) had a declining tendency and calcium (Ca) had an increasing tendency. Being below salmon-blocking waterfalls or the salmon density below falls was a factor in higher total nitrogen, nitrate, ammonium, phosphorus, total sulfur (S), magnesium, and sodium concentrations; below falls sites also had lower pH and aluminum. Exploratory analysis of the regional gradient data using a random forest model apportioned high importance to soil depth, the moss community, the shrub community, salmon density and distance from the stream. These results show that salmon inputs are correlated with a number of changes in recipient soils, and these are consistent with an interpretation of improved fertility at these sites.
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来源期刊
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
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