Shortcode Demonstrations

Callouts

Note

Quarto default callout

BCDS callout - sample text, defaults

Titled Callout

BCDS callout - sample text, default variant

BCDS callout - sample text, blue variant

Titled, variant

BCDS callout - sample text, light blue variant, with title

Accordions

Accordion Example - Continuous Monitoring

In continuous monitoring, air quality is constantly measured by drawing air in through various tubes that are connected to data loggers that automatically transmit the data to a central MOE database. The data is automatically checked for errors and is published hourly on the Current Air Data page, where it is available to the public, and used to calculate the Air Quality Health Index (AQHI).

This data is useful for providing real-time information and for calculating indexes. However, until it goes through the MOE’s data validation process, it is still considered raw data and should not be used for comparing to air quality guidelines or objectives.

The province uses a wide range of automated instruments to collect and measure air quality data, including the following (with instrument acronyms and parameters measured in parenthesis):

• Tempered Element Oscillating Microbalance (TEOM) (PM2.5 and PM10)
• Beta AttenuatedMonitoring (BAM) (PM2.5)
• UV Photometry (ozone)
• Chemiluminscence (nitrogen dioxide)
• UV Fluorescence (sulphur dioxide)
• Nondispersive Infrared Photometry (carbon monoxide)
• Pulsed Fluorescence (total reduced sulphur or H2S)

Accordion Example - Initially Open

In continuous monitoring, air quality is constantly measured by drawing air in through various tubes that are connected to data loggers that automatically transmit the data to a central MOE database. The data is automatically checked for errors and is published hourly on the Current Air Data page, where it is available to the public, and used to calculate the Air Quality Health Index (AQHI).

This data is useful for providing real-time information and for calculating indexes. However, until it goes through the MOE’s data validation process, it is still considered raw data and should not be used for comparing to air quality guidelines or objectives.

The province uses a wide range of automated instruments to collect and measure air quality data, including the following (with instrument acronyms and parameters measured in parenthesis):

• Tempered Element Oscillating Microbalance (TEOM) (PM2.5 and PM10)
• Beta AttenuatedMonitoring (BAM) (PM2.5)
• UV Photometry (ozone)
• Chemiluminscence (nitrogen dioxide)
• UV Fluorescence (sulphur dioxide)
• Nondispersive Infrared Photometry (carbon monoxide)
• Pulsed Fluorescence (total reduced sulphur or H2S)

Accordion Example - Initially Open, Header

In continuous monitoring, air quality is constantly measured by drawing air in through various tubes that are connected to data loggers that automatically transmit the data to a central MOE database. The data is automatically checked for errors and is published hourly on the Current Air Data page, where it is available to the public, and used to calculate the Air Quality Health Index (AQHI).

This data is useful for providing real-time information and for calculating indexes. However, until it goes through the MOE’s data validation process, it is still considered raw data and should not be used for comparing to air quality guidelines or objectives.

The province uses a wide range of automated instruments to collect and measure air quality data, including the following (with instrument acronyms and parameters measured in parenthesis):

• Tempered Element Oscillating Microbalance (TEOM) (PM2.5 and PM10)
• Beta AttenuatedMonitoring (BAM) (PM2.5)
• UV Photometry (ozone)
• Chemiluminscence (nitrogen dioxide)
• UV Fluorescence (sulphur dioxide)
• Nondispersive Infrared Photometry (carbon monoxide)
• Pulsed Fluorescence (total reduced sulphur or H2S)

Accordion Example - Header

In continuous monitoring, air quality is constantly measured by drawing air in through various tubes that are connected to data loggers that automatically transmit the data to a central MOE database. The data is automatically checked for errors and is published hourly on the Current Air Data page, where it is available to the public, and used to calculate the Air Quality Health Index (AQHI).

This data is useful for providing real-time information and for calculating indexes. However, until it goes through the MOE’s data validation process, it is still considered raw data and should not be used for comparing to air quality guidelines or objectives.

The province uses a wide range of automated instruments to collect and measure air quality data, including the following (with instrument acronyms and parameters measured in parenthesis):

• Tempered Element Oscillating Microbalance (TEOM) (PM2.5 and PM10)
• Beta AttenuatedMonitoring (BAM) (PM2.5)
• UV Photometry (ozone)
• Chemiluminscence (nitrogen dioxide)
• UV Fluorescence (sulphur dioxide)
• Nondispersive Infrared Photometry (carbon monoxide)
• Pulsed Fluorescence (total reduced sulphur or H2S)

Cards

Titled Card

card contents

Red Card

danger card contents

Red Card

danger card contents, icon

Success Card

success card contents

Success Card

success card contents, icons

Info Card

info card contents

Info Card

info card contents, icons enabled

Warning Card

warning card contents

Warning Card

warning card contents, icons enabled

Info Image Card

info with logo card contents

Info Image Card

info with logo card contents

Link Example

Warning Image Card

Warning with logo card contents and icons

Link Example

untitled with logo card contents

untitled danger card with logo card contents

untitled card contents

Inline Alerts

Titled Alert Alert contents

Untitled alert contents

Untitled alert contents, warning

Untitled alert contents, warning

Untitled alert contents, danger

Untitled alert contents, success

Untitled alert contents, info (default)