SGP EBBR E22 - E22 EBBR Data Incorrect During 6 Month Checks

The data was incorrect during the 6 month checks.

• Temperature of the top humidity chamber(thum_top)
• latent heat flux(e)
• 5 cm soil heat flow corrected for soil moisture content, site 5(c_shf5)
• soil heat flow, site 5(g5)
• Soil heat capacity 5(cs5)
• wind direction (relative to true north)(wind_d)
• Soil heat capacity 3(cs3)
• 5 cm soil heat flow, site 1(shf1)
• soil heat flow, site 4(g4)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• 5 cm soil heat flow, site 3(shf3)
• 0-5 cm change in soil heat storage with time, site 2(ces2)
• Soil heat capacity 1(cs1)
• 0-5 cm integrated soil temperature, site 5(ts5)
• Top humidity(hum_top)
• Retrieved pressure profile(pres)
• h(h)
• vector wind speed(res_ws)
• net radiation(q)
• bottom vapor pressure(vp_bot)
• 0-5 cm integrated soil temperature, site 2(ts2)
• 0-5 cm integrated soil temperature, site 3(ts3)
• top vapor pressure(vp_top)
• soil heat flow, site 1(g1)
• 0-5 cm change in soil heat storage with time, site 2(ces1)
• volumetric soil moisture, site 1(sm1)
• bottom air temperature(tair_bot)
• 5 cm soil heat flow corrected for soil moisture content, site 4(c_shf4)
• 0-5 cm integrated soil temperature, site 4(ts4)
• volumetric soil moisture, site 3(sm3)
• volumetric soil moisture, site 4(sm4)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• volumetric soil moisture, site 2(sm2)
• Reference Thermistor Temperature(tref)
• Soil heat capacity 4(cs4)
• 5 cm soil heat flow, site 2(shf2)
• 5 cm soil heat flow corrected for soil moisture content, site 2(c_shf2)
• 0-5 cm change in soil heat storage with time, site 3(ces3)
• 0-5 cm change in soil heat storage with time, site 5(ces5)
• 0-5 cm change in soil heat storage with time, site 4(ces4)
• 5 cm soil heat flow corrected for soil moisture content, site 1(c_shf1)
• soil heat flow, site 2(g2)
• scalar wind speed(wind_s)
• average surface soil heat flow(ave_shf)
• 0-5 cm integrated soil temperature, site 2(ts1)
• soil heat flow, site 3(g3)
• volumetric soil moisture, site 5(sm5)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Soil heat capacity 2(cs2)
• 5 cm soil heat flow, site 4(shf4)
• 5 cm soil heat flow, site 5(shf5)
• 5 cm soil heat flow corrected for soil moisture content, site 3(c_shf3)

• standard deviation of wind direction (sigma theta)(sigma_wd)
• scalar wind speed(wind_s)
• wind direction (relative to true north)(wind_d)
• net radiation(q)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• vector wind speed(res_ws)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• top air temperature(tair_top)
• Retrieved pressure profile(pres)
• Reference Thermistor Temperature(tref)

• Soil heat capacity 1(cs1)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Reference Thermistor Temperature(tref)
• top vapor pressure(vp_top)
• wind direction (relative to true north)(wind_d)
• Temperature of bottom humidity sensor chamber(thum_bot)
• 0-5 cm change in soil heat storage with time, site 3(ces3)
• Soil heat capacity 5(cs5)
• Temperature of the top humidity chamber(thum_top)
• volumetric soil moisture, site 5(sm5)
• 5 cm soil heat flow corrected for soil moisture content, site 3(c_shf3)
• 0-5 cm change in soil heat storage with time, site 2(ces2)
• net radiation(q)
• 5 cm soil heat flow corrected for soil moisture content, site 2(c_shf2)
• volumetric soil moisture, site 4(sm4)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• 0-5 cm integrated soil temperature, site 5(ts5)
• volumetric soil moisture, site 1(sm1)
• 5 cm soil heat flow, site 2(shf2)
• 0-5 cm integrated soil temperature, site 2(ts2)
• 5 cm soil heat flow, site 5(shf5)
• 5 cm soil heat flow corrected for soil moisture content, site 1(c_shf1)
• bottom vapor pressure(vp_bot)
• latent heat flux(e)
• 0-5 cm integrated soil temperature, site 2(ts1)
• 5 cm soil heat flow corrected for soil moisture content, site 5(c_shf5)
• Retrieved pressure profile(pres)
• scalar wind speed(wind_s)
• Bottom humidity(hum_bot)
• average surface soil heat flow(ave_shf)
• soil heat flow, site 3(g3)
• 5 cm soil heat flow, site 3(shf3)
• soil heat flow, site 2(g2)
• Top humidity(hum_top)
• 0-5 cm integrated soil temperature, site 4(ts4)
• soil heat flow, site 1(g1)
• h(h)
• volumetric soil moisture, site 3(sm3)
• 5 cm soil heat flow, site 4(shf4)
• bottom air temperature(tair_bot)
• soil heat flow, site 5(g5)
• 5 cm soil heat flow, site 1(shf1)
• Soil heat capacity 4(cs4)
• vector wind speed(res_ws)
• volumetric soil moisture, site 2(sm2)
• 0-5 cm integrated soil temperature, site 3(ts3)
• 5 cm soil heat flow corrected for soil moisture content, site 4(c_shf4)
• soil heat flow, site 4(g4)
• top air temperature(tair_top)
• 0-5 cm change in soil heat storage with time, site 2(ces1)
• Soil heat capacity 3(cs3)
• 0-5 cm change in soil heat storage with time, site 4(ces4)
• 0-5 cm change in soil heat storage with time, site 5(ces5)
• Soil heat capacity 2(cs2)

• Soil moisture 4(rr_sm4)
• Soil temperature 2(rr_ts2)
• Soil temperature 1(rr_ts1)
• Soil heat flow 4(mv_hft4)
• Soil temperature 5(rr_ts5)
• Soil moisture 3(rr_sm3)
• scalar wind speed(wind_s)
• Left air temperature(tair_l)
• Wind direction (relative to true north)(mv_wind_d)
• Soil moisture 1(r_sm1)
• Soil heat flow 1(mv_hft1)
• Right relative humidity(mv_hum_r)
• Soil moisture 5(r_sm5)
• Net radiation(mv_q)
• Soil moisture 4(r_sm4)
• Soil moisture 1(rr_sm1)
• Left relative humidity(mv_hum_l)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Soil heat flow 3(mv_hft3)
• Soil moisture 3(r_sm3)
• Soil temperature 3(rr_ts3)
• Soil moisture 2(rr_sm2)
• Reference temperature(rr_tref)
• Temperature of left humidity sensor chamber(rr_thum_l)
• Soil heat flow 2(mv_hft2)
• Soil moisture 2(r_sm2)
• Soil heat flow 5(mv_hft5)
• Soil temperature 4(rr_ts4)
• Soil moisture 5(rr_sm5)
• Right air temperature(tair_r)
• Atmospheric pressure(mv_pres)

• Right relative humidity(mv_hum_r)
• Wind direction (relative to true north)(mv_wind_d)
• scalar wind speed(wind_s)
• Left relative humidity(mv_hum_l)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Soil temperature 1(rr_ts1)
• Soil moisture 2(r_sm2)
• Right air temperature(tair_r)
• Net radiation(mv_q)
• Soil moisture 4(r_sm4)
• Soil moisture 1(r_sm1)
• Soil heat flow 3(mv_hft3)
• Soil heat flow 2(mv_hft2)
• Soil moisture 5(r_sm5)
• Soil moisture 3(r_sm3)
• Soil heat flow 1(mv_hft1)
• Soil temperature 4(rr_ts4)
• Atmospheric pressure(mv_pres)
• Soil temperature 5(rr_ts5)
• Reference temperature(rr_tref)
• Temperature of left humidity sensor chamber(rr_thum_l)
• Soil heat flow 4(mv_hft4)
• Left air temperature(tair_l)
• Soil heat flow 5(mv_hft5)
• Soil temperature 2(rr_ts2)
• Soil temperature 3(rr_ts3)

SGP/EBBR/E22 - 6 Month Checks

The indicated measurements were incorrect during the 6 month checks.

• Temperature of the top humidity chamber(thum_top)
• bottom air temperature(tair_bot)
• latent heat flux(e)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• Temperature of bottom humidity sensor chamber(thum_bot)
• top air temperature(tair_top)

• bottom air temperature(tair_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Top humidity(hum_top)
• latent heat flux(e)
• Temperature of the top humidity chamber(thum_top)
• top air temperature(tair_top)
• h(h)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

SGP/EBBR/E22 - All Measurements Zero

The measurements are often all zero the first period after a CR10 restart, as occurred 
here.

• Temperature of the top humidity chamber(thum_top)
• latent heat flux(e)
• 5 cm soil heat flow corrected for soil moisture content, site 5(c_shf5)
• soil heat flow, site 5(g5)
• Soil heat capacity 5(cs5)
• wind direction (relative to true north)(wind_d)
• Soil heat capacity 3(cs3)
• 5 cm soil heat flow, site 1(shf1)
• soil heat flow, site 4(g4)
• Exchange mechanism position indicator (15 to 30 min)(home_30)
• Exchange mechanism position indicator (0 to 15 min)(home_15)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• 5 cm soil heat flow, site 3(shf3)
• 0-5 cm change in soil heat storage with time, site 2(ces2)
• Soil heat capacity 1(cs1)
• 0-5 cm integrated soil temperature, site 5(ts5)
• Top humidity(hum_top)
• Retrieved pressure profile(pres)
• h(h)
• vector wind speed(res_ws)
• net radiation(q)
• bottom vapor pressure(vp_bot)
• 0-5 cm integrated soil temperature, site 2(ts2)
• 0-5 cm integrated soil temperature, site 3(ts3)
• top vapor pressure(vp_top)
• soil heat flow, site 1(g1)
• 0-5 cm change in soil heat storage with time, site 2(ces1)
• volumetric soil moisture, site 1(sm1)
• bottom air temperature(tair_bot)
• 5 cm soil heat flow corrected for soil moisture content, site 4(c_shf4)
• 0-5 cm integrated soil temperature, site 4(ts4)
• volumetric soil moisture, site 3(sm3)
• volumetric soil moisture, site 4(sm4)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• volumetric soil moisture, site 2(sm2)
• Reference Thermistor Temperature(tref)
• Soil heat capacity 4(cs4)
• 5 cm soil heat flow, site 2(shf2)
• 5 cm soil heat flow corrected for soil moisture content, site 2(c_shf2)
• 0-5 cm change in soil heat storage with time, site 3(ces3)
• 0-5 cm change in soil heat storage with time, site 5(ces5)
• 0-5 cm change in soil heat storage with time, site 4(ces4)
• 5 cm soil heat flow corrected for soil moisture content, site 1(c_shf1)
• soil heat flow, site 2(g2)
• scalar wind speed(wind_s)
• average surface soil heat flow(ave_shf)
• 0-5 cm integrated soil temperature, site 2(ts1)
• soil heat flow, site 3(g3)
• volumetric soil moisture, site 5(sm5)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Soil heat capacity 2(cs2)
• 5 cm soil heat flow, site 4(shf4)
• 5 cm soil heat flow, site 5(shf5)
• 5 cm soil heat flow corrected for soil moisture content, site 3(c_shf3)

• Home signal(home)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• scalar wind speed(wind_s)
• wind direction (relative to true north)(wind_d)
• net radiation(q)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• vector wind speed(res_ws)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• top air temperature(tair_top)
• Retrieved pressure profile(pres)
• Reference Thermistor Temperature(tref)

• Soil heat capacity 1(cs1)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Reference Thermistor Temperature(tref)
• top vapor pressure(vp_top)
• Exchange mechanism position indicator (0 to 15 min)(home_15)
• wind direction (relative to true north)(wind_d)
• Temperature of bottom humidity sensor chamber(thum_bot)
• 0-5 cm change in soil heat storage with time, site 3(ces3)
• Soil heat capacity 5(cs5)
• Temperature of the top humidity chamber(thum_top)
• 5 cm soil heat flow corrected for soil moisture content, site 3(c_shf3)
• volumetric soil moisture, site 5(sm5)
• 0-5 cm change in soil heat storage with time, site 2(ces2)
• net radiation(q)
• 5 cm soil heat flow corrected for soil moisture content, site 2(c_shf2)
• volumetric soil moisture, site 4(sm4)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• 0-5 cm integrated soil temperature, site 5(ts5)
• volumetric soil moisture, site 1(sm1)
• 5 cm soil heat flow, site 2(shf2)
• 0-5 cm integrated soil temperature, site 2(ts2)
• 5 cm soil heat flow, site 5(shf5)
• 5 cm soil heat flow corrected for soil moisture content, site 1(c_shf1)
• bottom vapor pressure(vp_bot)
• latent heat flux(e)
• 0-5 cm integrated soil temperature, site 2(ts1)
• Exchange mechanism position indicator (15 to 30 min)(home_30)
• 5 cm soil heat flow corrected for soil moisture content, site 5(c_shf5)
• Retrieved pressure profile(pres)
• scalar wind speed(wind_s)
• Bottom humidity(hum_bot)
• average surface soil heat flow(ave_shf)
• soil heat flow, site 3(g3)
• 5 cm soil heat flow, site 3(shf3)
• soil heat flow, site 2(g2)
• Top humidity(hum_top)
• 0-5 cm integrated soil temperature, site 4(ts4)
• soil heat flow, site 1(g1)
• h(h)
• volumetric soil moisture, site 3(sm3)
• 5 cm soil heat flow, site 4(shf4)
• bottom air temperature(tair_bot)
• soil heat flow, site 5(g5)
• 5 cm soil heat flow, site 1(shf1)
• Soil heat capacity 4(cs4)
• vector wind speed(res_ws)
• volumetric soil moisture, site 2(sm2)
• 0-5 cm integrated soil temperature, site 3(ts3)
• 5 cm soil heat flow corrected for soil moisture content, site 4(c_shf4)
• soil heat flow, site 4(g4)
• top air temperature(tair_top)
• 0-5 cm change in soil heat storage with time, site 2(ces1)
• Soil heat capacity 3(cs3)
• 0-5 cm change in soil heat storage with time, site 4(ces4)
• 0-5 cm change in soil heat storage with time, site 5(ces5)
• Soil heat capacity 2(cs2)

• Home signal(mv_home)
• Soil moisture 4(rr_sm4)
• Soil temperature 2(rr_ts2)
• Soil temperature 1(rr_ts1)
• Soil heat flow 4(mv_hft4)
• Soil temperature 5(rr_ts5)
• Soil moisture 3(rr_sm3)
• scalar wind speed(wind_s)
• Left air temperature(tair_l)
• Wind direction (relative to true north)(mv_wind_d)
• Soil moisture 1(r_sm1)
• Soil heat flow 1(mv_hft1)
• Right relative humidity(mv_hum_r)
• Soil moisture 5(r_sm5)
• Net radiation(mv_q)
• Soil moisture 4(r_sm4)
• Soil moisture 1(rr_sm1)
• Left relative humidity(mv_hum_l)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Soil heat flow 3(mv_hft3)
• Soil moisture 3(r_sm3)
• Soil temperature 3(rr_ts3)
• Battery(bat)
• Soil moisture 2(rr_sm2)
• Reference temperature(rr_tref)
• Temperature of left humidity sensor chamber(rr_thum_l)
• Soil heat flow 2(mv_hft2)
• Soil moisture 2(r_sm2)
• Soil heat flow 5(mv_hft5)
• Soil temperature 4(rr_ts4)
• Soil moisture 5(rr_sm5)
• Right air temperature(tair_r)
• Atmospheric pressure(mv_pres)

• null(Raw data stream - documentation not supported)

• Right relative humidity(mv_hum_r)
• Wind direction (relative to true north)(mv_wind_d)
• scalar wind speed(wind_s)
• Left relative humidity(mv_hum_l)
• Battery(bat)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Soil temperature 1(rr_ts1)
• Soil moisture 2(r_sm2)
• Right air temperature(tair_r)
• Net radiation(mv_q)
• Soil moisture 4(r_sm4)
• Soil moisture 1(r_sm1)
• Soil heat flow 3(mv_hft3)
• Soil heat flow 2(mv_hft2)
• Soil moisture 5(r_sm5)
• Soil moisture 3(r_sm3)
• Soil heat flow 1(mv_hft1)
• Home signal(mv_home)
• Soil temperature 4(rr_ts4)
• Atmospheric pressure(mv_pres)
• Soil temperature 5(rr_ts5)
• Reference temperature(rr_tref)
• Temperature of left humidity sensor chamber(rr_thum_l)
• Soil heat flow 4(mv_hft4)
• Left air temperature(tair_l)
• Soil heat flow 5(mv_hft5)
• Soil temperature 2(rr_ts2)
• Soil temperature 3(rr_ts3)

SGP/EBBR/E22 - AEM Hung or High Home Signals

The automatic exchange mechanism hung some times and continued to switch at other times, 
although with high home signal values.  If home signal values are not in the proper 
ranges, the gradient calculation is not performed properly by the CR10 program.  Affected flux 
measurements cannot be recalculated.

• Temperature of the top humidity chamber(thum_top)
• bottom air temperature(tair_bot)
• latent heat flux(e)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• Temperature of bottom humidity sensor chamber(thum_bot)
• top air temperature(tair_top)

• bottom air temperature(tair_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Top humidity(hum_top)
• latent heat flux(e)
• Temperature of the top humidity chamber(thum_top)
• top air temperature(tair_top)
• h(h)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

SGP/EBBR/E22 - Data Incorrect during 6 month checks

Some of the measurements are incorrect during the 6 month checks.

• Temperature of the top humidity chamber(thum_top)
• bottom air temperature(tair_bot)
• latent heat flux(e)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• Temperature of bottom humidity sensor chamber(thum_bot)
• top air temperature(tair_top)

• bottom air temperature(tair_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Top humidity(hum_top)
• latent heat flux(e)
• Temperature of the top humidity chamber(thum_top)
• top air temperature(tair_top)
• h(h)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

SGP/EBBR/E22 - AEM Hung between home positions

When the AEM (Automatic Exchange Mechanism) is hung 
inbetween home positions, the gradients of temperature and 
relative humidity, and thus sensible and latent heat fluxes, 
are incorrect.

There is no work-around to this problem.

• Temperature of the top humidity chamber(thum_top)
• bottom air temperature(tair_bot)
• latent heat flux(e)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• Temperature of bottom humidity sensor chamber(thum_bot)
• top air temperature(tair_top)

• bottom air temperature(tair_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Top humidity(hum_top)
• latent heat flux(e)
• Temperature of the top humidity chamber(thum_top)
• top air temperature(tair_top)
• h(h)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

SGP/EBBR/E22 - home30 too large

The home30 measurements sometimes exceeded 34.9999, resulting in the
qc flag being set.

However, this does not create any data quality issues.  The qc flag is
set just to provide an alert that the automatic exchange mechanism may have a problem; in 
this case data was not affected.

An electronics repair solved the problem.

• Exchange mechanism position indicator (15 to 30 min)(home_30)

• Home signal(home)

• Exchange mechanism position indicator (15 to 30 min)(home_30)

• Home signal(mv_home)

• Home signal(mv_home)

SGP/EBBR/E22 -  6 Month Checks

Many measurements were incorrect while the AEM was positioned with both aspirators at the 
same height for comparison checks.

• Temperature of the top humidity chamber(thum_top)
• bottom air temperature(tair_bot)
• latent heat flux(e)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• Temperature of bottom humidity sensor chamber(thum_bot)
• top air temperature(tair_top)

• bottom air temperature(tair_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Top humidity(hum_top)
• latent heat flux(e)
• Temperature of the top humidity chamber(thum_top)
• top air temperature(tair_top)
• h(h)

• Right relative humidity(mv_hum_r)
• Temperature of left humidity sensor chamber(rr_thum_l)
• Left air temperature(tair_l)
• Left relative humidity(mv_hum_l)
• Right air temperature(tair_r)
• Temperature of right humidity sensor chamber(rr_thum_r)

• Right relative humidity(mv_hum_r)
• Left air temperature(tair_l)
• Left relative humidity(mv_hum_l)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Right air temperature(tair_r)
• Temperature of left humidity sensor chamber(rr_thum_l)

SGP/EBBR/E22 - AEM Hung Inbetween Home Positions

The AEM was hung inbetween home positions.

• Temperature of the top humidity chamber(thum_top)
• bottom air temperature(tair_bot)
• latent heat flux(e)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• top vapor pressure(vp_top)
• Top humidity(hum_top)
• bottom air temperature(tair_bot)
• Bottom humidity(hum_bot)
• Temperature of bottom humidity sensor chamber(thum_bot)
• top air temperature(tair_top)

• bottom air temperature(tair_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom vapor pressure(vp_bot)
• Top humidity(hum_top)
• latent heat flux(e)
• Temperature of the top humidity chamber(thum_top)
• top air temperature(tair_top)
• h(h)

• Right relative humidity(mv_hum_r)
• Temperature of left humidity sensor chamber(rr_thum_l)
• Left air temperature(tair_l)
• Left relative humidity(mv_hum_l)
• Right air temperature(tair_r)
• Temperature of right humidity sensor chamber(rr_thum_r)

• Right relative humidity(mv_hum_r)
• Left air temperature(tair_l)
• Left relative humidity(mv_hum_l)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Right air temperature(tair_r)
• Temperature of left humidity sensor chamber(rr_thum_l)

SGP/EBBR/E22  - Water in Net Radiometer, Surface Fluxes Incorrect

The net radiometer top dome was punctured by migrating birds.  This alone does not cause 
incorrect net radiation measurements.  However, when it subsequently rains, water collects 
in the bottom dome, causing the net radiation measurements to be too large during the 
day and too small at night.

• h(h)
• net radiation(q)
• latent heat flux(e)

• net radiation(q)

• h(h)
• latent heat flux(e)
• net radiation(q)

• Net radiation(mv_q)

• Net radiation(mv_q)

SGP/EBBR/E22 - 6 Month Checks

Many measurements were incorrect while the AEM was positioned with both aspirators at the 
same height for comparison checks.

• Temperature of bottom humidity sensor chamber(thum_bot)
• Top humidity(hum_top)
• Temperature of the top humidity chamber(thum_top)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• bottom vapor pressure(vp_bot)
• bottom air temperature(tair_bot)
• top vapor pressure(vp_top)

• Temperature of the top humidity chamber(thum_top)
• latent heat flux(e)
• bottom air temperature(tair_bot)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• top air temperature(tair_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• Right relative humidity(mv_hum_r)
• Left air temperature(tair_l)
• Left relative humidity(mv_hum_l)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Right air temperature(tair_r)
• Temperature of left humidity sensor chamber(rr_thum_l)

SGP/EBBR/E22  - Wind Speed Sensor Frozen By Ice Storm

The wind speed sensor was frozen stopped by ice from a storm.  The wind speed 
and residual wind speed measurements are incorrect.

• scalar wind speed(wind_s)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• scalar wind speed(wind_s)

• scalar wind speed(wind_s)

SGP/EBBR/E22 - Wind Direction Sensor Frozen By Ice Storm

The wind direction sensor was frozen stopped by ice from a storm.  
The wind direction, sigma_wd, and residual wind speed measurements 
are incorrect.

• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)

• Wind direction (relative to true north)(mv_wind_d)

SGP/EBBR/E22 - Wind Speed Sensor Bearings Worn

Wind speed was too low and/or often at or near zero due to
               worn bearings in the wind speed sensor.  Sensor was replaced
               3/17/04.

• scalar wind speed(wind_s)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• scalar wind speed(wind_s)

• scalar wind speed(wind_s)

SGP/EBBR/E22  - Wind Speed Frozen Stopped By Ice

An ice storm froze the wind speed sensor to a stopped condition.

The wind speed and residual wind speed measurements are incorrect.

This sensor failure does not affect the sensible and latent heat fluxes.

• scalar wind speed(wind_s)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• scalar wind speed(wind_s)

• scalar wind speed(wind_s)

SGP/EBBR/E22 - 6 Month Checks

Many measurements were incorrect while the AEM was positioned with both aspirators at the 
same height for comparison checks.

• Temperature of bottom humidity sensor chamber(thum_bot)
• Top humidity(hum_top)
• Temperature of the top humidity chamber(thum_top)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• bottom vapor pressure(vp_bot)
• bottom air temperature(tair_bot)
• top vapor pressure(vp_top)

• Temperature of the top humidity chamber(thum_top)
• latent heat flux(e)
• bottom air temperature(tair_bot)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top vapor pressure(vp_top)
• top air temperature(tair_top)
• Temperature of bottom humidity sensor chamber(thum_bot)

• Right relative humidity(mv_hum_r)
• Left air temperature(tair_l)
• Left relative humidity(mv_hum_l)
• Temperature of right humidity sensor chamber(rr_thum_r)
• Right air temperature(tair_r)
• Temperature of left humidity sensor chamber(rr_thum_l)

SGP/EBBR/E22  - Wind Speed Frozen Stopped By Ice Storm

An ice storm froze the wind speed sensor to a stopped condition.

The wind speed and residual wind speed measurements are incorrect.

This sensor failure does not affect the sensible and latent heat fluxes.

• scalar wind speed(wind_s)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• scalar wind speed(wind_s)

• scalar wind speed(wind_s)

SGP/EBBR/E22  - Wind Direction Frozen Stopped By Ice Storm

The wind direction sensor was frozen stopped by ice from a storm.  
The wind direction, sigma_wd, and residual wind speed measurements 
are incorrect.

• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)

• Wind direction (relative to true north)(mv_wind_d)

SGP/EBBR/E22  - Wind Speed Frozen Stopped By Ice

An ice storm froze the wind speed sensor to a stopped condition.

The wind speed and residual wind speed measurements are incorrect.

This sensor failure does not affect the sensible and latent heat fluxes.

• scalar wind speed(wind_s)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• scalar wind speed(wind_s)

• scalar wind speed(wind_s)

SGP/EBBR/E22  - Wind Direction Frozen Stopped By Ice

The wind direction sensor was frozen stopped by ice from a storm.  
The wind direction, sigma_wd, and residual wind speed measurements 
are incorrect.

• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)

• Wind direction (relative to true north)(mv_wind_d)

SGP/EBBR/E22 - Net Radiation Too Low - Top Dome Broken

Net radiation values were too low because of a broken top dome.

• net radiation(q)

• h(h)
• net radiation(q)
• latent heat flux(e)

• Net radiation(mv_q)

SGP/EBBR/E22 - Net Radiation Incorrect; Sensible and Latent Heat Fluxes Incorrect

The net radiometer top dome was broken and water got inside, making the net radiation, and 
sensible and latent heat flux measurements incorrect.

• net radiation(q)

• h(h)
• net radiation(q)
• latent heat flux(e)

• Net radiation(mv_q)

SGP/EBBR/E22 - metadata corrections

On 20050723, a series of metadata corrections and additions were completed.  These 
metadata changes apply to all EBBR.E22 data collected by ARM back to the installation of the 
instrument in April 1993. Please see the current metadata for correct information.  These 
changes do not affect data values or quality.	

The changes are summarized below:
1) Update of "sensor location" information
2) Addition of installation dates for the systems
3) Correction of soil type
4) Correction of soil moisture units (from "by volume" to "gravimetric")

• base time(base_time)

• base time(base_time)

• base time(base_time)

SGP/EBBR/E22 - Sensible and Latent Heat Fluxes Incorrect

• Temperature of bottom humidity sensor chamber(thum_bot)
• top air temperature(tair_top)
• Top humidity(hum_top)
• bottom vapor pressure(vp_bot)
• Temperature of the top humidity chamber(thum_top)
• Bottom humidity(hum_bot)
• bottom air temperature(tair_bot)
• top vapor pressure(vp_top)

• Temperature of the top humidity chamber(thum_top)
• ratio of sensible/latent heat fluxes (Bowen ratio)(bowen)
• Bottom humidity(hum_bot)
• top air temperature(tair_top)
• top vapor pressure(vp_top)
• Temperature of bottom humidity sensor chamber(thum_bot)
• bottom air temperature(tair_bot)
• latent heat flux(e)
• Top humidity(hum_top)
• h(h)
• bottom vapor pressure(vp_bot)

• Left air temperature(tair_l)
• Right air temperature(tair_r)

SGP/EBBR/E22 - Wind Speed Sensor Frozen Stopped

The wind speed sensor was frozen to a stopped condition.

• scalar wind speed(wind_s)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• scalar wind speed(wind_s)

• scalar wind speed(wind_s)

SGP/EBBR/E22 - Net Radiation and Sensible and Latent Heat Fluxes Incorrect

Rain entered the net radiometer, causing net radiation, and thus sensible and latent heat 
fluxes, to be too large.

• net radiation(q)

• h(h)
• net radiation(q)
• latent heat flux(e)

• Net radiation(mv_q)

SGP/EBBR/E22 - Soil Heat Flow #4 Incorrect - Sensible and Latent Heat Fluxes Sometimes 
Affected

Soil heat flow sensor #4 dropped to low values or offscale.

Sensible and latent heat fluxes were sometimes affected.

• 5 cm soil heat flow corrected for soil moisture content, site 4(c_shf4)
• soil heat flow, site 4(g4)
• h(h)
• 5 cm soil heat flow, site 4(shf4)
• average surface soil heat flow(ave_shf)
• latent heat flux(e)

• Soil heat flow 4(mv_hft4)

SGP/EBBR/E22 - Wind Direction Incorrect

Wind direction was flat-lining at 135 degrees and occasionally changed to 0.4 degrees.

• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)
• vector wind speed(res_ws)

• vector wind speed(res_ws)
• wind direction (relative to true north)(wind_d)
• standard deviation of wind direction (sigma theta)(sigma_wd)

• Wind direction (relative to true north)(mv_wind_d)

SGP/EBBR/E22 - H and LE Incorrect

Soil Heat Flow 1 bounced around and went offscale at times, resulting in the EBBR program 
setting sensible and latent heat fluxes to 9999es.

The problem ended during a PM visit, possibly because of routine checks and tightening of 
leads in terminal strips.

• soil heat flow, site 1(g1)
• 5 cm soil heat flow, site 1(shf1)
• h(h)
• 5 cm soil heat flow corrected for soil moisture content, site 1(c_shf1)
• average surface soil heat flow(ave_shf)
• latent heat flux(e)

• Soil heat flow 1(mv_hft1)