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Lillehammer vs Tusayan

Dfb Warm-summer humid continentalCsb Warm-summer Mediterranean

Comparing Lillehammer change · Tusayan change

Bottom line

Tusayan is the warmer of the two — about 2°C on the annual average; Lillehammer is the wetter, with 150 mm more rain a year, and Tusayan the sunnier.

Warmer Tusayan 2°C on the year

Wetter Lillehammer 150 mm more a year

Sunnier Tusayan 28 pp less cloud

Winter nights About the same winter lows close to each other

How the seasons compare

The differences between Lillehammer and Tusayan, in everyday terms.

Summers

Tusayan has much hotter summers

Lillehammer: Mild
Tusayan: Warm

Winters

Winters are similar

Lillehammer: Very cold
Tusayan: Very cold

Rain & snow

Lillehammer is wetter

Lillehammer: Fairly dry
Tusayan: Fairly dry

Sky

Tusayan is far sunnier

Lillehammer: Often cloudy
Tusayan: Fairly sunny

Month-by-month charts

Temperature

Tusayan is the warmer of the two — about 2°C on the annual average.

Precipitation

Lillehammer is the wetter — about 150 mm more across the year.

Clear skies

Tusayan has the clearer skies — the higher line.

Exact monthly numbers

Tap a metric to open its full table. Desktop shows all twelve months; on a phone each metric splits into Jan–Jun and Jul–Dec.

Avg high (°C) Tusayan runs higher most of the year

	Jan	Feb	Mar	Apr	May	Jun	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	-3	-1	5	11	16	21	23	21	16	9	3	-1
Tusayan	7	8	13	16	22	28	30	28	25	19	12	7
Difference	+10	+9	+8	+5	+5	+8	+7	+8	+9	+10	+9	+8

Jan – Jun	Jan	Feb	Mar	Apr	May	Jun
Lillehammer	-3	-1	5	11	16	21
Tusayan	7	8	13	16	22	28
Difference	+10	+9	+8	+5	+5	+8

Jul – Dec	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	23	21	16	9	3	-1
Tusayan	30	28	25	19	12	7
Difference	+7	+8	+9	+10	+9	+8

Avg low (°C) Lillehammer runs higher most of the year

	Jan	Feb	Mar	Apr	May	Jun	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	-9	-8	-4	-0	6	10	12	11	7	2	-2	-7
Tusayan	-10	-9	-6	-4	-1	3	9	9	4	-2	-7	-10
Difference	—	—	-2	-4	-6	-7	-3	-2	-2	-4	-5	-3

Jan – Jun	Jan	Feb	Mar	Apr	May	Jun
Lillehammer	-9	-8	-4	-0	6	10
Tusayan	-10	-9	-6	-4	-1	3
Difference	—	—	-2	-4	-6	-7

Jul – Dec	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	12	11	7	2	-2	-7
Tusayan	9	9	4	-2	-7	-10
Difference	-3	-2	-2	-4	-5	-3

Precipitation (mm) Lillehammer runs higher most of the year

	Jan	Feb	Mar	Apr	May	Jun	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	20	16	12	20	56	54	68	73	55	45	33	25
Tusayan	27	26	26	18	15	9	49	53	34	33	18	20
Difference	+8	+9	+14	-2	-40	-45	-19	-20	-21	-12	-15	-5

Jan – Jun	Jan	Feb	Mar	Apr	May	Jun
Lillehammer	20	16	12	20	56	54
Tusayan	27	26	26	18	15	9
Difference	+8	+9	+14	-2	-40	-45

Jul – Dec	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	68	73	55	45	33	25
Tusayan	49	53	34	33	18	20
Difference	-19	-20	-21	-12	-15	-5

Cloud cover (%) Lillehammer runs higher most of the year

	Jan	Feb	Mar	Apr	May	Jun	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	74	70	64	65	66	69	70	69	69	71	72	72
Tusayan	48	49	46	41	37	27	50	46	32	32	37	48
Difference	-25	-21	-19	-24	-29	-42	-20	-22	-36	-40	-36	-24

Jan – Jun	Jan	Feb	Mar	Apr	May	Jun
Lillehammer	74	70	64	65	66	69
Tusayan	48	49	46	41	37	27
Difference	-25	-21	-19	-24	-29	-42

Jul – Dec	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	70	69	69	71	72	72
Tusayan	50	46	32	32	37	48
Difference	-20	-22	-36	-40	-36	-24

Relative humidity (%) Lillehammer runs higher most of the year

	Jan	Feb	Mar	Apr	May	Jun	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	98	99	97	88	79	78	81	84	88	94	98	98
Tusayan	61	57	49	41	35	25	37	43	40	42	50	60
Difference	-37	-42	-48	-47	-44	-53	-44	-42	-48	-51	-47	-38

Jan – Jun	Jan	Feb	Mar	Apr	May	Jun
Lillehammer	98	99	97	88	79	78
Tusayan	61	57	49	41	35	25
Difference	-37	-42	-48	-47	-44	-53

Jul – Dec	Jul	Aug	Sep	Oct	Nov	Dec
Lillehammer	81	84	88	94	98	98
Tusayan	37	43	40	42	50	60
Difference	-44	-42	-48	-51	-47	-38

How both climates are changing

Both cities are warming. Each city has its own warming trend; see its trends page for the year-by-year detail. Lillehammer trends → · Tusayan trends →

Methodology & sources

Lillehammer

Temperature & precipitation — 1991–2020 normals computed from 12 years of daily observations at Hamar II, a weather station, about 49 km from the city centre. The underlying daily records come from NOAA's global station network.

Cloud, humidity, wind & sunshine — modelled estimates from NASA POWER, NASA's satellite-and-reanalysis climatology. This is the standard global source for atmospheric variables, which are not measured at most weather stations.

Tusayan

Temperature & precipitation — 1991–2020 normals computed from 24 years of daily observations at Grand Canyon NP AP, a weather station, about 4 km from the city centre. The underlying daily records come from NOAA's global station network.

How we build these numbers →

← change Lillehammer · change Tusayan → · Lillehammer page · Tusayan page