Relevant Code

The following are Python files and Jupyter Notebooks that are relevant to the Environmental Drivers of Spring Bloom Timing analysis. $

• Making Pickle Files for Environmental Drivers of Spring Bloom Timing Analysis
  • To recreate this notebook at a different location
  • Creating pickles files for location specific variables
  • Creating pickles files for location specific mixing variables
  • Creating pickles files for bloom timing calculations
  • Creating pickles files for non-location specific variables:
• Time Series of Phytoplankton Bloom Timing and Environmental Drivers from 2007-2020 at Station S3 (201905 model run)
  • To recreate this notebook at a different location
  • Strait of Georgia Region
  • Bloom Date Time Series
  • Monthly average wind speed cubed (January-March)
  • Monthly average solar radiation (January-March)
  • Monthly average surface temperature (January-March)
  • Monthly average surface salinity (January-March)
  • Monthly average Fraser river flow (January-March)
  • Monthly average surface zooplankton concentration (January-March)
  • Monthly average surface mesozooplankton concentration (January-March)
  • Monthly average surface microzooplankton concentration (January-March)
  • Monthly average depth-integrated zooplankton concentration (January-March)
  • Monthly average depth-integrated mesozooplankton concentration (January-March)
  • Monthly average depth-integrated microzooplankton concentration (January-March)
  • Monthly average Mid-Depth (30-90m) Nitrate (January-March)
  • Monthly average Nitrate concentration in deep SoG (below 250 m) (January-March)
  • Monthly Average Halocline Depth (January-March)
  • Monthly average turbocline depth (January-March)
  • Monthly average density difference from surface to 10m (January-March)
  • Monthly average eddy diffusivity in top 15m (January-March)
  • Monthly average eddy diffusivity in top 30m (January-March)
• Station S3 analysis
  • To recreate this notebook at a different location
  • Strait of Georgia Region
  • Correlation matrix for January Values
  • Correlation matrix for February Values
  • Correlation matrix for March Values
  • Correlation plots of wind residuals
  • Correlation plots of solar radiation residuals
  • Correlation plots of temperature residuals
  • Correlation plots of deep NO3 residuals
  • Correlation plots of salinity residuals
  • Correlation plots of Fraser flow residuals
  • Multiple linear regression
  • Conclusions
• Time Series of Phytoplankton Bloom Timing and Environmental Drivers from 2007-2020 at Station QU39 (201905 model run)
  • To recreate this notebook at a different location
  • Strait of Georgia Region
  • Bloom Date Time Series
  • Monthly average wind speed cubed (January-March)
  • Monthly average solar radiation (January-March)
  • Monthly average surface temperature (January-March)
  • Monthly average surface salinity (January-March)
  • Monthly average Fraser river flow (January-March)
  • Monthly average surface zooplankton concentration (January-March)
  • Monthly average surface mesozooplankton concentration (January-March)
  • Monthly average surface microzooplankton concentration (January-March)
  • Monthly average depth-integrated zooplankton concentration (January-March)
  • Monthly average depth-integrated mesozooplankton concentration (January-March)
  • Monthly average depth-integrated microzooplankton concentration (January-March)
  • Monthly average Mid-Depth (30-90m) Nitrate (January-March)
  • Monthly average Nitrate concentration in deep SoG (below 250 m) (January-March)
  • Monthly Average Halocline Depth (January-March)
  • Monthly average turbocline depth (January-March)
  • Monthly average density difference from surface to 10m (January-March)
  • Monthly average eddy diffusivity in top 15m (January-March)
  • Monthly average eddy diffusivity in top 30m (January-March)
• QU39 Bloom Timing Check and Time Series
  • Time series
• Station QU39 analysis
  • To recreate this notebook at a different location
  • Strait of Georgia Region
  • Correlation matrix for January Values
  • Correlation matrix for February Values
  • Correlation matrix for March Values
  • Correlation plots of solar radiation residuals
  • Correlation plots of temperature residuals
  • Correlation plots of salinity residuals
  • Correlation plots of halocline residuals
  • Multiple linear regression