Queries to the ALA will almost always require some form of temporal filtering. It is important to know how these types of data are stored in the ALA and how we can query them to obtain desired filters.
The ALA database possesses numerous date and time fields that relate to each observation. Here we provide descriptions of each of these fields and how they are best used to obtain specific queries. Ultimately, there are two ways users can filter temporal queries:
filter using pre-existing/defined parameters, such as specific years or months
filter within a bespoke date and/or time range
All temporal filtering is conducted using
galah_filter()
. All temporal fields described below can be
queried for exact matches (==
), greater/less than
(>
, <
) or greater/less than or equal to
(<=
, >=
). Queries for multiple fields or
multiple queries of the same field can be combined in a single
galah_filter()
call to filter a time window.
The ALA contains in-built year
, month
, and
day
fields for every record. These are queried as numeric
fields (i.e. July = 7
) and can be used for quick data
exploration and filtering. These fields are most useful when the date
limits of a query can be easily defined by year, month and/or day.
For instance, we can get monthly counts of amphibians from 2021 using
the year
and month
fields.
galah_call() |>
filter(class == "Amphibia", year == 2021) |>
group_by(month) |>
count() |>
collect()
## # A tibble: 12 × 2
## month count
## <chr> <int>
## 1 11 83810
## 2 10 38208
## 3 12 36578
## 4 9 27616
## 5 1 22352
## 6 8 18758
## 7 3 17964
## 8 2 16550
## 9 7 8945
## 10 4 7769
## 11 6 6961
## 12 5 5996
It is also important to observe that the outputted month
column is of type character
even though the values are
numeric. This is the case for each of the year
,
month
and day
fields. However, they can be
queried as either numeric or character values within
filter()
.
One limitation of using these fields for queries with
filter()
is their independence; they cannot be used to
query within windows bounded by two dates because the day and month
filters are applied universally. For instance, consider the native
perennial Australian wildflower Chamaescilla corymbosa, whose
known growth and flowering times are from August–October. We might be
interested in the number of records for this species in the first week
of spring (i.e. September) in each of the last 10 years. The following
query does not provide all results between 1/9/2013 and 7/9/2023.
Rather, it will only return results that fall within all 3 windows at
once.
galah_call() |>
filter(species == "Chamaescilla corymbosa",
year >= 2013,
year <= 2023,
month == 9,
day >= 1,
day <= 7) |>
group_by(year) |>
count() |>
collect() |>
arrange(year)
## # A tibble: 11 × 2
## year count
## <chr> <int>
## 1 2013 8
## 2 2014 13
## 3 2015 8
## 4 2016 7
## 5 2017 1
## 6 2018 9
## 7 2019 6
## 8 2020 20
## 9 2021 36
## 10 2022 26
## 11 2023 54
For a more bespoke way to query exact dates of records, users can use
the eventDate
field. This field contains the exact date and
time information of records and enables specific time windows to be
queried easily. The only caveat is that the time/date must be provided
in a specific format to filter()
for the query to work.
The required format of dates in eventDate
is the ISO 8601 International
Date Standard format. This requires dates and times to be of the
form “YYYY-MM-DDTHH:MM:SSZ”. Note that the T
in the middle
should be the actual letter “T” to delimit the date and time components,
while the “Z” officially denotes that the time should be queried as UTC
(Greenwich Meridian) time. Timezones can be confusing at the best of
times, however it is easiest to remember that all ALA records are
recorded at the local time of their location, and all times are then
treated as effectively being UTC times.
The upshot of this specific formatting is that, for instance, the
time I am writing this paragraph, 4:26pm on the 2nd of August 2023,
would be represented as "2023-08-02T16:26:44Z"
in the ALA,
even though officially my timezone is "+0930"
.
Because eventDate
specifies the time to seconds, it is
recommended that greater or less than queries are used rather than exact
matches. When used with filter()
, we can easily identify
how many records of the humpback whale (Megaptera novaeangliae)
have occurred since the species was removed from the Australian
threatened species list on 26/02/2022.
galah_call() |>
filter(species == "Megaptera novaeangliae",
eventDate >= "2022-02-26T00:00:00Z") |>
count() |>
collect()
## # A tibble: 1 × 1
## count
## <int>
## 1 1240
It can be unintuitive to provide dates in this format. Luckily, it is very simple to convert standard R dates or {lubridate} dates into this format because they are already in the required “YYYY-MM-DD” form. If we took the above date (26/02/2022), it could be converted to this form using base R or lubridate as follows:
humpback_date <- "26/02/2022"
# Base R
paste0(as.Date(humpback_date, format = "%d/%m/%Y"), "T00:00:00Z")
## [1] "2022-02-26T00:00:00Z"
## [1] "2022-02-26T00:00:00Z"
After sending a query, any outputted eventDate
values
returned by a galah
query will be of date class
"POSIXct"
.
The other important date field present in the ALA pertains to the
date that the record was provided to the ALA. This field is called
firstLoadedDate
and is formatted in exactly the same manner
as eventDate
.
Different data providers provide batches of records to the ALA at
different intervals. iNaturalist Australia provide weekly uploads of
data, while eBird provides yearly uploads. firstLoadedDate
can be especially useful for finding new records to the ALA that have
been provided since you last checked. For instance, we can use it to see
how many observations of Sulphur-Crested Cockatoos recorded in the first
week of 2023 were actually loaded into the ALA by the following
week:
# Total records of Cactua galerita in Jan 1-7
galah_call() |>
filter(species == "Cacatua galerita",
eventDate >= "2023-01-07T00:00:00Z",
eventDate < "2023-01-08T00:00:00Z") |>
count() |>
collect()
## # A tibble: 1 × 1
## count
## <int>
## 1 407
# Records of Cactua galerita uploaded in Jan 1-14
galah_call() |>
filter(species == "Cacatua galerita",
eventDate >= "2023-01-07T00:00:00Z",
eventDate < "2023-01-08T00:00:00Z",
firstLoadedDate < "2023-01-15T00:00:00Z") |>
count() |>
collect()
## # A tibble: 1 × 1
## count
## <int>
## 1 5
Note that no lower bound is required for firstLoadedDate
because eventDate
imposes that by proxy (records can’t be
uploaded before they’ve occurred).