Ah, that data isn’t cumulative. It is just looking at current excess mortality. A lot of Sweden’s excess mortality happened early on (I believe, while the other Scandinavian countries were locking down more). So the cumulative number is higher, but not the current number.
I’m referencing the numbers on https://ourworldindata.org/grapher/excess-mortality-p-scores-projected-baseline?tab=table&country=MEX~RUS~ZAF
Sweden has a higher population than the other countries listed so total numbers are not comparable. That alone doesn’t explain all the difference.
It’s unclear to me why https://ourworldindata.org/grapher/excess-mortality-p-scores-projected-baseline?tab=map&country=MEX~RUS~ZAF and https://ourworldindata.org/grapher/cumulative-excess-deaths-per-million-covid come to such different conclusions.
“Sweden has a higher population than the other countries listed so total numbers are not comparable. That alone doesn’t explain all the difference.”
The numbers I’m citing above are population normalized. They are total excess deaths per million (and per 100k in the economist link).
”It’s unclear to me why https://ourworldindata.org/grapher/excess-mortality-p-scores-projected-baseline?tab=map&country=MEX~RUS~ZAF and https://ourworldindata.org/grapher/cumulative-excess-deaths-per-million-covid come to such different conclusions.”
Ah, that data isn’t cumulative. It is just looking at current excess mortality. A lot of Sweden’s excess mortality happened early on (I believe, while the other Scandinavian countries were locking down more). So the cumulative number is higher, but not the current number.