iNaturalist is a community science platform that helps people get involved in the natural world by observing and identifying the living things around them. Collectively, the community produces a rich source of global biodiversity data that can be valuable to anyone from hobbyists to scientists.
pyinaturalist is a client for the iNaturalist API that makes these data easily accessible in the python programming language.
- β‘οΈ Easier requests: Simplified request formats, easy pagination, and complete request parameter type annotations for better IDE integration
- β¬
οΈ Convenient responses: Type conversions to the things you would expect in python, and
typed model objects (
Observation,Taxon, etc.) with full IDE autocompletion - π Security: Keyring integration for secure credential storage
- π Docs: Example requests, responses, scripts, and Jupyter notebooks to help get you started
- π§ͺ Testing: A dry-run testing mode to preview your requests before potentially modifying data
- π Responsible use: Follows the API Recommended Practices without extra configuration; caching and rate-limiting features reduce bandwidth usage, errors, and unexpected throttling
Many of the most relevant API endpoints are supported, including:
- π Annotations and observation fields
- π Identifications
- π¬ Messages
- π Observations (multiple formats)
- π· Observation photos + sounds
- π Observation histograms, observers, identifiers, life lists, and species counts
- π Places
- π₯ Projects
- π¦ Species
- π€ Users
Here are usage examples for some of the most commonly used features.
First, install with pip:
pip install pyinaturalistThen, import and create a client object. This will be our main interface to the API:
from pyinaturalist import *
client = iNatClient()Note: If you are looking for the lower-level API functions (without the client class), see this page
Let's start by searching for all your own observations. There are
numerous fields you can search on, but we'll just use user_id for now:
>>> results = client.observations.search(user_id='my_username')The full response consists of Observation objects with numerous attributes, but we can use pyinaturalist.pprint() to print
out a condensed summary:
>>> pprint(results)
ID Taxon Observed on User Location
βββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββ
117585709 Genus: Hyoscyamus (henbanes) May 18, 2022 niconoe Calvi, France
117464920 Genus: Omophlus May 17, 2022 niconoe GalΓ©ria, France
117464393 Genus: Briza (Rattlesnake Grasses) May 17, 2022 niconoe GalΓ©ria, France
...You can also get observation counts by species. On iNaturalist.org, this information can be found on the 'Species' tab of search results. For example, to get species counts of all your own research-grade observations:
>>> counts = client.observations.species_counts(user_id='my_username', quality_grade='research')
>>> pprint(counts)
ID Rank Scientific name Common name Count
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47934 species π Libellula luctuosa Widow Skimmer 7
48627 species π» Echinacea purpurea Purple Coneflower 6
504060 species π Pleurotus citrinopileatus Golden Oyster Mushroom 6
...The data will be in the form of
TaxonCount
objects:
>>> counts[0]
TaxonCount(
id=48662,
name='Danaus plexippus',
preferred_common_name='Monarch',
rank='species',
count=13,
observations_count=458712,
...
)Another useful format is the
observation histogram,
which shows the number of observations over a given time interval. The default is month_of_year:
>>> histogram = client.observations.histogram(user_id='my_username')
>>> pprint(histogram)
Month Count
ββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββ
Jan 8 ββββ
Feb 1 β
Mar 20 ββββββββββThe raw data will be a dict, with either int or datetime keys, depending on the interval:
>>> print(histogram.raw)
{
1: 8, # January
2: 1, # February
3: 19, # March
..., # etc.
}To create or modify observations, you will first need to log in. This requires creating an iNaturalist app, which will be used to get an access token.
creds = {
'username': 'my_username',
'password': 'my_password',
'app_id': 'my_app_id',
'app_secret': 'my_app_secret',
}
client = iNatClient(creds=creds)See Authentication for more options including environment variables, keyrings, and password managers. A keyring is recommended, which does not require passing credentials directly:
client = iNatClient()
# Creds will be requested from the keyring when an authenticated request is made
client.observations.create(...)Now we can create a new observation:
from datetime import datetime
new_obs = client.observations.create(
taxon_id=54327, # Vespa Crabro
observed_on_string=datetime.now(),
time_zone='Brussels',
description='This is a free text comment for the observation',
tag_list='wasp, Belgium',
latitude=50.647143,
longitude=4.360216,
positional_accuracy=50, # GPS accuracy in meters
photos=['~/observations/wasp1.jpg', '~/observations/wasp2.jpg'],
sounds=['~/observations/recording.wav'],
)We can then update the observation information, photos, or sounds:
client.observations.update(
new_obs.id, # Use the observation ID from the result above
access_token=token,
description='updated description !',
photos='~/observations/wasp_nest.jpg',
sounds='~/observations/wasp_nest.mp3',
)There are many more resource types available besides observations. Taxonomy is another useful one.
Let's say you partially remember either a genus or family name that started with 'vespi'-something. The taxon search can be used to search by name, rank, and several other criteria:
>>> results = client.taxa.search(q='vespi', rank=['genus', 'family'])As with observations, there is a lot of information available in the response (Taxon objects), but we'll print just a few basic details:
>>> pprint(results)
ID Rank Scientific name Common name
ββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββ
52747 family π Vespidae Hornets, Paper Wasps, Potter Wasps, and Allies
84737 genus π¦ Vespina
646195 genus πͺ° Vespiodes
...For more information, see:
- User Guide: introduction and general features that apply to most endpoints
- Endpoint Summary: a complete list of endpoints wrapped by pyinaturalist
- Examples: data visualizations and other examples of things to do with iNaturalist data
- Reference: Detailed API documentation
- Contributing Guide: development details for anyone interested in contributing to pyinaturalist
- History: details on past and current releases
- Issues: planned & proposed features
If you have any problems, suggestions, or questions about pyinaturalist, you are welcome to create an issue or discussion. Also, PRs are welcome!
Note: pyinaturalist is developed by members of the iNaturalist community, and is not endorsed by iNaturalist.org or the California Academy of Sciences. If you have non-python-specific questions about the iNaturalist API or iNaturalist in general, the iNaturalist Community Forum is the best place to start.
Other python projects related to iNaturalist:
- naturtag: A desktop application for tagging image files with iNaturalist taxonomy & observation metadata
- pyinaturalist-convert: Tools to convert observation data to and from a variety of useful formats
- pyinaturalist-notebook: Jupyter notebook Docker image for pyinaturalist
- dronefly: A Discord bot with iNaturalist integration, used by the iNaturalist Discord server.