Tiny ocean plants, chlorophyll (NOAA-20, near-real-time) — VIIRSJ1_L3b_CHL_NRT

In plain English

What it measures. Global maps of chlorophyll-a in surface ocean waters, a green pigment used as a stand-in for how much phytoplankton (tiny floating plants) is present. This is a fast near-real-time version, so its calibration is less than optimal.

How it's made. Derived from ocean-color readings by the VIIRS instrument on the NOAA-20 satellite and gathered into a global gridded composite.

How & where you'd use it. Used to track ocean plant life, spot blooms, and support fisheries and ecosystem work. Readings are less reliable in murky coastal or inland waters, so users should check the documentation.

What's measured

Oceans › Ocean Optics › Chlorophyll › Chlorophyll ConcentrationBIOSPHERE › VEGETATION › CHLOROPHYLLOCEANS › OCEAN CHEMISTRY › CHLOROPHYLLOCEANS › OCEAN CHEMISTRY › PIGMENTS › CHLOROPHYLLTERRESTRIAL HYDROSPHERE › WATER QUALITY/WATER CHEMISTRY › WATER CHARACTERISTICS › CHLOROPHYLL CONCENTRATIONSBIOSPHERE › ECOSYSTEMS › AQUATIC ECOSYSTEMS › PLANKTON › PHYTOPLANKTON

Coverage & cadence

Time span2017-11-29 → ongoing
Measured byNOAA-20 (VIIRS)
Processing levelLevel 3
Spatial extent-180, -90, 180, 90
FormatsnetCDF-4
StatusACTIVE

What you can do with it

Watch sea-surface temperature and marine heatwaves
Spot algal blooms and ocean-colour shifts
Support fisheries and coastal monitoring

Official description

The Ocean Biology DAAC produces near real-time (NRT) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Near real-time products provide a snapshot of the data during a short time period within a single orbit. The Chlorophyll-a data suite provides global, gridded composites of surface chlorophyll-a concentration (a proxy for phytoplankton biomass). CHL supports time-series and climatologies, anomaly detection, ecosystem and fisheries applications, and teaching/training, and pairs well with AVW, PAR, Kd(490), SST, and winds for environmental context. Note: retrievals in optically complex coastal/inland waters may carry higher uncertainty—refer to the mission/algorithm documentation (e.g., OCx/OCI) for details. Geophysical variables in this suite include: - chlor_a — Chlorophyll-a concentration (mg m⁻³)

Get the data

viirsj1_l3b_chl_nrt_access.py

import earthaccess
earthaccess.login(strategy="netrc")          # free Earthdata Login

results = earthaccess.search_data(
    short_name="VIIRSJ1_L3b_CHL_NRT",
    version="2022.0",
    bounding_box=(-122.5, 37.2, -121.8, 37.9),  # your area (W,S,E,N)
    temporal=("2024-01-01", "2024-12-31"),       # your dates
)
files = earthaccess.open(results)   # stream straight from OB_CLOUD

Browsing CMR needs no login. Downloading or streaming bytes needs a free Earthdata Login + the earthaccess package.

Official links

Earthdata Search allows users to search, discover, visualize, refine, and access NASA Earth Observation data. GET DATA
View the version history of this product. VIEW RELATED INFORMATION
NASA's Ocean Color Web - Data Distribution Site GET DATA
NOAA-20 Homepage VIEW RELATED INFORMATION
VIIRS Homepage VIEW RELATED INFORMATION
Satellite data procesing can be difficult. We're here to help! Visit the Oceandata Help Hub to navigate learning content for accessing visualizing, and analyzing data products. VIEW RELATED INFORMATION
Algorithm Theoretical Basis Document for Chlorophyll (CHL) - Near Real-time (NRT) VIEW RELATED INFORMATION