Agricultural Observations
Issued by NWS Lake Charles, LA
Issued by NWS Lake Charles, LA
090 SHUS44 KLCH 181513 AGOLCH Agricultural Reports National Weather Service Lake Charles La 1013 AM CDT Tue Jun 18 2024 The following table is a summary of cooperative observations for the 24-hour period ending around 8 am this morning. :Id Station Low High 7-8 AM Temp Precip :--------------------------------------------------------------- ALXL1 Alexandria Power P 74 88 75 0.15 BNKL1 Bunkie 74 86 76 0.10 CROL1 CROWLEY 2 NE + + + 0.30 JNNL1 Jennings 71 86 75 0.05 LEEL1 Leesville 73 86 77 0.07 BAGT2 Beaumont Research 75 90 78 0.06 JSPT2 SAM RAYBURN RES 73 88 74 0.10 TBLT2 Steinhagen Lake 73 87 74 0.03 LLBT2 Lumberton 75 91 76 0.00 ORET2 Orange 9 N 73 93 76 0.17 : Soil Temperatures :------------------------------------------------- :Id Station Low High 7-8 AM Temp :------------------------------------------------- BAGT2 Beaumont Research 81 84 81 JNNL1 Jennings 74 90 75 : Pan Evaporation :-------------------------------------------------- :Id Station Pan Evap Miles of Wind :-------------------------------------------------- BAGT2 Beaumont Research 0.22 162.00 JNNL1 Jennings 0.18 58.00 JSPT2 SAM RAYBURN RES 0.05 81.00 TBLT2 Steinhagen Lake 0.17 8.00 The following table is a summary of cooperative observations for the 24-hour period ending at midnight. :Id Station Low High 12 AM Temp Precip :--------------------------------------------------------------- BYCL1 Boyce 3 WNW 71 84 72 0.00 FRAL1 Franklin 3 NW 74 89 76 0.70 MBLL1 Moss Bluff 2 NNW 72 87 78 0.47 The following table is a summary of cooperative observations for the 24-hour period ending at 4 pm yesterday. :Id Station Low High 3-4PM Temp Precip :--------------------------------------------------------------- GRCL1 Grand Coteau + + + + The following is a summary of ASOS and AWOS observed overnight Low temp (ending at 6 AM CST / 7 AM CDT)...High temp yesterday and 24-hour precipitation (ending at 6 AM CST / 7 AM CDT). :------------------------------------------------------------- ASOS Id Station Name Low High Precip :------------------------------------------------------------- AEX Alexandria Intl 74 90 0.19 ESF Alexandria Esler 74 88 0.32 BPT Beaumont Pt. Arthur 78 89 0.68 POE FT. Johnson AAF 75 89 0.05 BKB Ft. Johnson-Fullerton 74 88 0.01 LCH Lake Charles 76 88 1.21 LFT Lafayette 76 90 0.41 ARA New Iberia 75 91 0.16 PTN Patterson 74 87 0.80 P92 Salt Point 75 82 0.00 :------------------------------------------------------------- AWOS Id Station Name Low High :------------------------------------------------------------- JAS Jasper 73 88 0.00 CWF Lake Charles Chenault 75 88 0.00 5R8 De Quincy 74 87 0.62 3R7 Jennings Airport 75 86 0.00 OPL Opelousas 74 87 0.04 ACP Oakdale 73 88 0.23 ORG Orange 78 91 0.13 UXL Sulphur 77 90 0.65 DRI De Ridder 74 88 T BMT Beaumont Municpal Air 74 89 0.00 :------------------------------------------------------------- Raws Id Station Name Low High Precip :------------------------------------------------------------- VRNL1 Fullerton RAWS 74 87 0.00 GARL1 Gardner RAWS 73 86 0.01 HAKL1 Sabine RAWS-Hackberry 78 90 0.43 FADT2 McFaddin RAWS 79 88 0.56 KRBT2 Buna RAWS 74 87 0.59 LACL1 Lacassine RAWS 76 87 0.29 WRRT2 WARREN RAWS 73 89 0.00 WVLT2 Woodville RAWS 74 88 0.18 CADL1 Cade Farm at Lafayette + + 0.11 The following is a summary of National Ocean Service met stations observed overnight Low temp (ending at 6 AM CST / 7 AM CDT)...High temp yesterday. :-------------------------------------------------------------------- Id Station Name Low High :-------------------------------------------------------------------- TXPT2 Texas Point 72 85 CAPL1 CALCASIEU PASS 78 87 AMRL1 Amerada Pass 75 87 LCLL1 Lake Charles, LA 76 87 : Water Temperatures :---------------------------------------------------------- :Id Station Low High :---------------------------------------------------------- NCLL1 BIG LAKE NEAR HACKBERRY 84 87 CAPL1 CALCASIEU PASS 86 89 LCLL1 Lake Charles, LA 91 94 AMRL1 Amerada Pass 82 83 TXPT2 Texas Point 87 89 + denotes data missing or not routinely reported. $$