82 Saliwouki (st. 5). (p=49056' N; X=r30n3' E=2" 1'°; H=208 w*.; -f 0.3 mm. 



Marzec (Mars) h 



Barometr red 

 doO" i na cięż 

 kość (gravite) 

 700 mvi -j- 



ra ip 9p 



Temperatura powietrza 

 Temperaturę de I'air 

 CO 



7a 



ip 



9P 



Sreil. 

 Moy. 



Max. I Min. 



Wilg bezwz. 

 Hum. abs. 



7)) III. 



ya. ip 



9P 



Wilg. wzgl. 

 Hum. rei 



0/ 

 10 



7a ■ ip 9p 



Zachm. 



Nebul 

 0-10 



7a ip 9p 



Kier. i prędk. wiatru 

 Direct. et. vitesse 

 du vent, tn./sec. 



■ja. 



9P 



3 = 

 •O C 



UWAGI 

 REMARdUES 



I 



40.4 



40.2 40.6 



1 .0 



0. 



4.8 



4-3 



7.0 





0.5 



4-0 



59 



5.8 



92 



80 



90 



IG 



10 



10 



O"' 



o5 W * 



QQ\\T j 

 00 W " 





2, 





Al Q 



1-3-3 



i. 4 



7 1 



3-i 



4. u 



7 c 



/•3 





1 .0 



C T 



C A 



c n 



93 



72 



87 







10 



SSVV2 





W- 



1-3 



3 



42.4 



41.4 



41.0 



— I.O 



1.8 



2 4 



1-4 



3.2 





2.0 



4-1 



5.2 



5-3 



96 



100 



96 



3 



10 



10 



W2 



w* 







4 



41.7 



4.1.7 



7- 3 ■ J 



1.2 



3.0 



0.8 



1.5 



3.0 





0.0 



5.0 



5.5 



4.5 



100 



96 



92 



10 



10 



10 



SW^ 





ESE' 







5 



48.0 



49.0 



49-7 



0.4 



2.8 



1.2 



1-4 



3-5 





0.5 



4.4 



4.1 



3-9 



92 



7^ 



78 



10 



10 



10 



ESE2 



ESE'-' 











6 



49.6 



48.9 



47.7 



0.0 



3-4 



2.0 



2.0 



6.5 





0-5 



4.6 



4.1 



4-9 



96: 70 



93 



10 



8 



6 















7 



,1 7 •! 



47-3 



47.6 



47.9 





4 ^ 



2.8 



^■7 



4-5 





It 



/I /I 

 'ł-ł 



5-9 



5.0 



89 



97 



80 

 09 







1 













8 



49.0 



50.7 



50.7 



— 0.4 



— 0.2 



— 2.0 



— i.i 



2.8 







2.0 



43 



4.2 



3-7 



96 



92 



96 



10 



10 



10 









SE3 



0,8 



9 



52.8 





';2.4 



3 -"'H- 



— 2.2 



1.2 



— 0.4 



— 1.0 



1-5 





3-5 



3-4 



3-3 



4-3 



87 



65 



96 



10 



9 



8 





E» 



E^ 



— 



IG 



52.1 



52.1 



51.9 



— 2.0 



— 1.0 



- 1-5 



- 1.5 



— 0.4 





3.0 



3-7 



4.2 



3-9 



96 



98 



94 



10 



9 



10 



E* 



E' 



ESE^ 



. — 



I I 



50.3 



KO.Q 



j 7 



3 



— 0.8 



1-4 



— • 1.0 



— 0.3 



2.0 





2.0 



4.1 



4.5 



4.0 



94 



96 

 89 



94 



10 



8 



4 











I Z 





=12.4. 



3*7 



3-3 





0.8 





2.0 





45 



2 T 



4-7 



3-5 



89 



7^ 









ESE* 



ESE6 



SE 5 





13 



47-9 



48.8 



3 J 7 



- 3.6 



— 2.2 



— 2.4 



- 2^6 



0.8 





45 



3.2 



3-4 



3-7 



88 



87 



96 



10 



10 



10 



SE» 



SSE3 



SE-' 







14 



53.8 



J7-0 



J7-*3 



— 1.2 



1.0 



— 1.0 



— 0.6 



1-5 





2.4 



4.0 



4-4 



3-9 



96 89 



92 



10 



10 



10 







G 







G.2 



15 



54.2 



54.8 



53-3 



— 1.4 



1.0 



- 0.4 



— 3 



5.0 





3-5 



4.0 



3-4 



4 3 



96 



68 



96 



10 



10 









NNE' 



ESE* 







10 



53.6 





3 3 j 





4.2 



0.4 



0.2 



5.0 





4.5 



31 



a.O 



3-9 



91 



49 



82 



8 



5 



6 







>SSE' 



S' 





I 7 



C T T 

 51.1 



10.7 



3 3 



0.1, 



; 8 



1 .2 



2f 



7 r> 

 7.0 





^•3 



4-5 



2 8 

 3.0 



A 6 

 4.0 



IGO 



55 



92 





9 













18 



49-4 



^ 0.0 



49.8 



*t7*" 



— 0.8 



6.4 



2.8 



3.0 



7.0 







1.0 



4.0 



3-9 



4-3 



92 



54 



75 



4 



8 



10 















_ 



19 



50.2 



^0 ^ 



■JO.? 



0.0 



7.2 



2.6 



3-1 



9.0 







5 



4 3 



3.8 



4.6 



92 



50 



82 



4 



6 



8 











S3 







20 



50.8 



j j 



S2.7 



j ^ 1 



0.0 



4.Z 



0.6 



1-3 



6.0 





1.5 



3-9 



4.8 



4.6 



88 



77 



96 



10 



10 



10 





NNW 





2.0 



21 



53-5 



C-l 7 



Co 



— 0.6 



"^"^ 



5.0 



3-5 



5-5 





1-5 



4.2 



5.0 



6.3 



96 



78 



97 



10 



10 



10 





00 tir =; 



SW'' 



4.0 



22 



50.4 



49-7 



50-3 



5.0 



9.6 



7.6 



7-5 



10. 





2.0 



6-3 



6.8 



6.3 



97 



76 



8g 







10 



10 



w 





WNW'' 





23 



48.0 



47-1 



45.8 



4.0 



I ^.2 



9.4 



7 3 



16.0 





0.1; 



3 



4'; 

 7 3 



8.5 





73 



66 



84 



6 



3 







W 



w« 



W-' 





24 



46.8 



45 ^ 



43.6 



3.0 



X7.6 



12.2 



II. 2 



18.0 







5 3 



11.4 



7.6 



93 



76 



72 



2 







2 



W3 



WSW5 



WSW 



— 



-5 



4S.5 



44.6 



46.4 



5.0 



1 1.2 



0.2 



7-1 



15.0 





3-0 



5-1 



8.9 



4.0 



78 



90 



50 



2 



5 



3 



WC5W 



AT W6 



\ X 7 KI \'X r 2 



W iN W 





26 



50.1 



50.9 



50.5 



0.4 



II. 



8.4 



7.0 



14.0 





0.0 



4-5 



78 



5.6 



96 



8g 



67 



5 



8 



2 



W.VW^ 



w< 



WS\V2 





^7 



52.0 



51.8 



50.4 



2.6 



13-4 



10.4 



9.2 



15.0 





0.0 



4.6 



10.4 



6.9 



82 



91 



74 



2 



I 



3 



sw* 



SE« 



SSE* 





28 



48.4 



47-5 



46.0 



3.8 



14.4 



12.6 



10.8 



17.0 





1-5 



4-4 



7-5 



7.6 



73 



60 



71 



4 







6 











29 



4v6 



4S.6 



45.2 



8.0 



17.8 



12.8 



12.9 



19.0 





4-5 



6.4 



12.4 



8.4 



81 



82 



77 

 89 



10 



6 



10 







WSW 





30 



47-5 



48.2 



47-9 



7.8 



15.4 



12.4 



12.0 



16.5 





5.0 



7.0 



9.2 



9-5 



89 



70 



5 



8 



6 







WNW- 





31 



43-4 



43.1 



39 7 



7.2 



15.6 



11.6 



II. 5 



17.0 





5-5 



7-1 



9.2 



8.2 



94 



68 



8g 



6' 



1 



S 



IG 







SSE2 





Sr.m. 

 Moy. 



47-4 



48.748.7 



r.o 



6.7, 



4.1 



3-9 



8.0 





0.6 



4.6 



6.0 



5-3 



91 



77 



85 



7.6 



7.6 



7.6 



^•5 





2-5 



8.3 



inpris 











i 







































= • 



Olszaua (st. G). 



:49n4' N; A=3in3' E=2'' 5"'; H=158 Cg= + 0.3 mm. 



Marzec (Mars) IIM)? 



I 



46.7 



1 



46.1 47.2 



0.7 



4-7 



1 



4-5 



3.6 



5-0 



' 0.6 



4.6 



' 5-5 



5.8 



94 



*6 



92 



IG 



IG 



IG 



SSW'o 



SW"> 



sw« 



0.4 





2 



48.2 



48.0 



^48.7 



09 



8.2 



0.2 



2.4 



9.2 



'— 0.4 



47 



4.8 



4-5 



96 60 



96 



9 



I 







WSW2 



WNW^ 



WNW 



O.G 



= • 



3 



47-7 



46.7 45.6 



- 1-7 



3.2 



2.8 



1.8 



5-2 



— 1.9 



4.0 



5.6 



5-3 



IGO 



97 



■94 



IG 



10 



10 



W' 



SE 5 



SE3 







4 



4S-8 



47.8 



49.6 



1.8 



1.0 



1.6 



1-5 



2.8 



0.3 



5-1 



4.6 



4-4 



96 



92 



85 



10 



IG 



10 



ESE^ 



E5 



ENE5 







5 



51-3 



52.7 



54.0 



G.2 



2.1 



1-5 



1-3 



2.1 



— 0.3 



4-3 



4.1 



41 



92 



77 



80 



10 



IG 



IG 



NE* 



NE* 



NNE3 







6 



53-7 



53-9 



52.8 



0.4 



2.8 



1.8 



17 



31 



0.0 



3-9 



4.1 



4-5 



82 



72 



85 



10 



9 



IG 



NNE* 



NE' 



ENE--^ 



G.G 



• 



7 



517 



52.4 



52.8 



1-4 



2.9: I.I 



1.6 



2.9 



1.0 



5.0 



5-1 



4.6 



98 



90 



92 

 88 



10 



10 



10 



E2 



E* 



E* 



0.0 



= • A 



8 



S 3.8 



54-9 



56.0 



— 0.9 



-. 0.7 





— 0.9 



I.I 



- 1.6 



3-9 



4.0 



3.8 



90 



92 



10 



10 



10 



ENE3 



ENE" 



ENE^ 







9 



56.6 



56.5 



56.1 



— 1.9 



1.0 



— 0.2 



— 03 



2.2;— 2.5 



3-4 



34 



37 



86 



68 



81 



IG 





10 



ENE^ 



ES 



ENE^ 







10 



54-9 



54., 



53-9 



— 1-7 



- 0.9 



- 2.5 



— 19 



— 0.2 



- 2.6 



3.6 



3.6 



3.2 



90 



82 



85 



IG 



10 



IG 



ENE8 



E" 



ENE9 



0.0 





II 



52.5 



53.0 



53-7 



- 1-4 



0.8 



— 02 



— 0.3 



1.0 



- 3.0 



3.6 



3-3 



3.8 



88 



68 



85 



10 



9 



9 



ES 



E12 



ENE"' 



O.G 





12 



53-7 



54-4 



56.1 



— 3.2 



I.I 



0.2 



— 0.4 



I.I 



- 3 5 



3-1 



37 



3-5 



87 



73 



74 



9 



9 





ENE9 



E.2 





G.O 





13 



56.4 



57-5 



58.1 



— 3-1 



— 2.8 



- 0.9 



- 19 



0.2 



— 3.6 



3.2 



3-4 



3-9 



89 



92 



90 



10 



10 



10 



ENE' 



ENE^ 



E* 



0.0 





14 



58.3 



58.6 



58.6 



- 0.9 



0.7 



- 0.8 



- 0-5 



07 



— I.I 



37 



37 



3 7 



86 



76 

 46 



85 



10 



10 



I 



E^ 



ESE« 



ESE* 



0.0 





15 



58.9 



58.4 



58.5 



- 1.8 



3-4 



0.2 



0.5 



3-4 



- 2.5 



3-4 



27 



3'3 



84 



71 



9 



I 



7 



ESE» 



ESE8 



E6 







16 



58.3 



57-9 



57-7 



— 3-^ 



3-7 



07 



0.5 



37 



- 3.6 



3-^ 



3.0 



4.2 



89 



49 



87 



I 



7 



10 



ENE^ 



ESE'i 



ESE-" 







17 



5 5-9, 55-1 



54-3 



O.I 



4.2 



2.4 



2.3 



4.5! 0.0 



3.6 



37 



37 



78 



60 



68 



9 



9 



8 



E^ 



ESE' 



ESE5 







18 



54-5i54-7 



54.8 



— 1.0 



5-0 



2.0 



2.0 



5.8 



— 1-9 



4.0 



37 



4.0 



94 

 86 



57 



75 



8 



10 



3 



SE- 



ESE* 



ESE= 







19 



55.0 55-3 



56.4 



- 0.6 



3.6 



— 0.9 



0.3 



3-9 



— I.I 



3-8 



4.0 



3.6 



67 



82 



10 



9 



5 



ESE^ 



ESE= 



SE* 







20 



56.8 



57-1 



58.2 



— 1.8 



— 1.0 



— 0.8 



— I.I 



— 0.3 



— 2.1 



3-3 



3-9 



4.0 



82 



92 



92 



10 



10 



10 



SE* 



SSE'' 



SE-^ 



1.2 





21 



59.3 



59-1 



55-7 



— 2.8 



0.6 



2.0 



0.5 



2.4 



— 3-1 



3.6 



3.8 



49 



96 



78 



93 

 89 



IG 



10 



10 



SSE* 



SSW« 



SSW* 



1.5 





22 



54-1 



54-9 54-8 



3-9 



10.4 



7-5 



7-3 



11.4 



1.8 



57 



6.1 



6.9 



95 



65 



10 



8 



10 



W3 



NNW« 



NW 



0.2 



• 



23 



53.6 



52.2 



50.9 



4.6 



14.9 



8.0 



8.9 



15.8 



3-4 



5-4 



6.1 



6.3 



86 



49 



79 



5 



3 







W 4 



WNW^ 



W 







24 



51.2 



50.4 



48.7 



3-4 



18.2 



10. 



10.4 



18.6 



2.0 



5-^ 



6.7 



6.5 



90 



43 



70 







3 







w 





WNW5 





u 



25 



46.5 



46.8 



51-3 



5.6 



15.0 



4.0 



7.2 



157 



3-5 



48 



6.8 



4.9 



71 



53 



80 



5 



4 







WSW* 



NW'2 



NW2 





/ 



26 



54-9 



55-3|55-9 



0.3 



II. 9 



4.8 



5-5 



12 4 



- G.6 



4 I 



3-9 



4.8 



87 



37 



74 



7 



9 







NW' 



WNW^ 



S= 





u 



27 



57-7 



57.4156.6 



2.0 



14.0 



7-1 



7.6 



14.0 



0.4 



4-3 



4-5 



4.2 



80 



38 



56 







° 







ESE' 



SSE'''' 



SSE' 





u/ 



28 



55.2 



52.9:51.6 



1.2 



15. 1 



7-5 



7.8 



157 



0.1 



4.4 



4.4 



4.6 



87 



35 



6g 



4 



G 







SSE'o 



SSW* 



SW^ 





/ 



29 



50,4 



50.8 



50.7 



3.6 



15.4 



II. 



10.3 



17-5 



2-5 



47 



7-3 



7.0 



8g 



56 



71 



10 



7 



6 



SSW' 



wsw-= 



WSVV3 







30 



5i-9|52-2 



51.6 



5.2 



18.2 



II. 



11.4 



18.2 



3-8 



6.1 



6.4 



7.6 



92 



41 



77 



5 



7 



I 



WSW^ 



NW' 



NW^' 





31 



48.9 44.9 



42.5 



7-5 



18. 1 



9.8 



11.3 



18. 1 



5-5 



6.5 



4.4 



5.6 



85 



28 



62 



4 



5 



3 



SSE' 



SSE'^ 



S'' 







.Moy. 



53-4 53-3 



53-3 



0-5 



6.3 



3-1 



3.2 



7-1 



— 04 



4-3 



4-5 



47 



88 



65 



81 



7-9 



7-1 



6.2 



4-5 



7-3 



4.9 



3-3 





mens 



































1 















i 



