Conifer needles bioaccumulate atmospheric pollutants, including trace metals, and may be used to monitor variations in atmospheric concentration. Needles were analyzed to determine whether a correlation exists between...Conifer needles bioaccumulate atmospheric pollutants, including trace metals, and may be used to monitor variations in atmospheric concentration. Needles were analyzed to determine whether a correlation exists between elevations and trace metal concentrations in proximity to roadways and other non-point sources. Composite samples of white spruce (Picea glauca) and balsam fir (Abies balsamea) needles were collected along hillsides in eastern and western Calgary, respectively. A combined total of 11 sites was sampled along two transects of increasing elevation. Qualitative and quantitative analysis of trace metal concentrations was completed using inductively coupled plasma-mass spectrometry (ICP-MS) and synthesized using regression analysis. The concentrations of cobalt, nickel, and calcium in the samples were found to exhibit a significant (P < 0.05) relationship with respect to elevation and proximity to roadways.展开更多
The relationship between climate change and wildfires was examined to summarize factors associated with vulnerability to wildfires. The complex and cyclic nature of interaction effects between the two was highlighted ...The relationship between climate change and wildfires was examined to summarize factors associated with vulnerability to wildfires. The complex and cyclic nature of interaction effects between the two was highlighted and the following conclusions were drawn. Climate change is leading to more frequent wildfires with higher intensity, resulting in release of more gasses and particulate matter that further exacerbates the progression of climate change. Direct and indirect impacts are detailed in the main body. A new fire management policy is deemed necessary, with a more local approach being recommended. Human impacts were found to further complicate the already complex relationship. It is recommended to treat accidental and incendiary fires separately for the purpose of evaluating fire management regimes. This requires successful advances in current fire investigation techniques.展开更多
文摘Conifer needles bioaccumulate atmospheric pollutants, including trace metals, and may be used to monitor variations in atmospheric concentration. Needles were analyzed to determine whether a correlation exists between elevations and trace metal concentrations in proximity to roadways and other non-point sources. Composite samples of white spruce (Picea glauca) and balsam fir (Abies balsamea) needles were collected along hillsides in eastern and western Calgary, respectively. A combined total of 11 sites was sampled along two transects of increasing elevation. Qualitative and quantitative analysis of trace metal concentrations was completed using inductively coupled plasma-mass spectrometry (ICP-MS) and synthesized using regression analysis. The concentrations of cobalt, nickel, and calcium in the samples were found to exhibit a significant (P < 0.05) relationship with respect to elevation and proximity to roadways.
文摘The relationship between climate change and wildfires was examined to summarize factors associated with vulnerability to wildfires. The complex and cyclic nature of interaction effects between the two was highlighted and the following conclusions were drawn. Climate change is leading to more frequent wildfires with higher intensity, resulting in release of more gasses and particulate matter that further exacerbates the progression of climate change. Direct and indirect impacts are detailed in the main body. A new fire management policy is deemed necessary, with a more local approach being recommended. Human impacts were found to further complicate the already complex relationship. It is recommended to treat accidental and incendiary fires separately for the purpose of evaluating fire management regimes. This requires successful advances in current fire investigation techniques.
