Diurnal variations of net radiation at a tropical station — Osu; Nigeria

Summary The diurnal variations of net radiation have been studied by analysing one year data measured at a tropical station, Osu (7.43° N, 4.58° E), in Nigeria. The maximum net daytime flux (which occurs around 14h local time) varies in the course of the year from 382.6±136.7Wm^–2 in the wet season (April–October) to 480.3±61.8 Wm^–2 in the dry season (November–March). The low values (and large fluctuations) of the hourly means recorded during the wet (monsoon) season are attributed to the important roles that the convective clouds and water vapour play in the atmospheric radiation budget, which is very pronounced in the tropical areas of West Africa.The daily amplitude of the net radiation is larger for the dry season (maximum in November) than it is for the wet season (minimum in July). A lag of about 2 hours is observed between the times when the maxima of the air temperature and the net radiation courses occur over the area.On leave from the Department of Physics, Obafemi Awolowo University, Ile-Ife, Nigeria.With 5 Figures     

The radiation balance at Copenhagen

Summary At the Climate and Water Balance Station of the Danish Hydrotechnical Laboratory near Copenhagen incoming radiation has been recorded continuously since 1954 by means of Moll thermopiles in Kipp & Zonen solarimeters and further, since 1955, reflected radiation, too. Since 1956 also net radiation and net long-wave radiation has been recorded by means of thermopiles in heat flow transducers from Beckman & Whitley used as radiometers.Mean daily values are given for incoming radiation as well as monthly mean values for reflected radiation, net long-wave radiation and net radiation. Recorded and calculated values of net long-wave radiation are given and discussed.

---

Zusammenfassung An der Klima- und Wasserhaushaltsstation des Dänischen Hydrotechnischen Laboratoriums bei Kopenhagen wurde seit 1954 dauernd die Einstrahlung mittels Moll-Thermosäulen in Kipp & Zonen-Solarimetern registriert und außerdem seit 1955 die Albedo. Seit 1956 wurden auch die Strahlungsbilanz und die effektive Ausstrahlung mittels Thermosäulen in Beckman & Whitley-Wärmestrommessern, die als Strahlungsmesser verwendet wurden, registriert.In einigen Tabellen werden tägliche Mittelwerte der Einstrahlung mitgeteilt wie auch Monatsmittelwerte der Reflexstrahlung, der effektiven Ausstrahlung und der Strahlungsbilanz. Ferner werden beobachtete und berechnete Werte der langwelligen Strahlungsbilanz angeführt und diskutiert.

---

Résumé On a effectué des enregistrements du rayonnement incident depuis 1954 et de l'albédo depuis 1955 à la Station d'économie climatologique et hydrologique du laboratoire danois d'hydrotechnique près de Copenhague. Le bilan radiatif fut également mesuré depuis 1956 ainsi que le rayonnement émis effectif.Les auteurs donnent ici des tableaux de valeurs journalières moyennes du rayonnement incident, des moyennes mensuelles de l'albédo, du rayonnement effectif et du bilan radiatif. Enfin des valeurs enregistrés et calculés du rayonnement effectif, sont présentés et discutés.

---

---

With 5 Figures     

Surface albedo at a tower site in Lake Ontario

Measurements of incoming global, diffuse and reflected radiation at a tower site in Lake Ontario are used to evaluate components of surface albedo. Albedo for diffuse radiation lies between 0.074 and 0.082 and a coefficient for backscatter from sub-surface water layers shows little deviation from a mean of 0.017. Direct beam albedo for a calm surface follows the Fresnel law. Waves increase direct-beam albedo particularly at higher solar zenith angles. A pronounced dependence of albedo upon zenith angle for clear skies decreases with increasing cloud amount and becomes undetectable in overcast conditions. On a daily basis, albedo ranged between 0.07 in early July to 0.11 in mid-November. Day-to-day scatter is within ±1% of the mean seasonal trend.     

The daily and annual effects of dew, frost, and snow on a non-ventilated net radiometer

The formation of dew, deposition of frost and accumulation of snow mainly on the upper domes of a non-ventilated net radiometer seriously affect the measurement of available energy (net radiation). Net radiometers measure radiation, and energy balances and are widely used for estimation of evapotranspiration throughout the world. To study the effects of dew, frost, and snow on a non-ventilated net radiometer, a radiation station was set up which uses 2 CM21 Kipp & Zonen pyranometers (one inverted), 2 CG1 Kipp & Zonen pyrgeometers (one inverted), along with a Q7.1 net radiometer (Radiation & Energy Balance Systems, Inc.; REBS) in a semi-arid mountainous valley in Logan, Utah, U.S.A. The pyranometers and pyrgeometers were ventilated using 4 CV2 Kipp & Zonen ventilation systems. The net radiometer was not ventilated. The ventilation of pyranometers and pyrgeometers prevents dew and frost deposition and snow accumulation which otherwise would disturb measurements. All sensors were installed at about 3.0 m above the ground, which was covered with natural vegetation during the growing season (May–September). The incoming and outgoing solar or shortwave radiation, the incoming (atmospheric) and outgoing (terrestrial) longwave radiation, and the net radiation have been continuously measured by pyranometers, pyrgeometers and a net radiometer, respectively, since 1995. These parameters have been measured every 2 s and averaged into 20 min. To evaluate the effects of dew, frost, and snow, three days were chosen: 26 April 2004 with early morning dew, 6 January 2005 with an early morning frost, and the snowy day of 24 February 2005. Dew formation, frost deposition, and snow accumulation occurred mainly on the upper dome of the non-ventilated Q7.1 net radiometer on the related days, while the ventilated Kipp & Zonen system was free of dew, frost and snow. Net radiation measured by the non-ventilated net radiometer R_n,unvent. during dew and frost periods of the above-mentioned days was greater than ventilated ones R_n,vent. (− 0.2 MJ m^− 2 vs. − 0.8 MJ m^− 2 during almost 4 h on 26 April 2004, and − 0.2 MJ m^− 2 vs. − 0.7 MJ m^− 2 during almost 6.5 h on 6 January 2005). The reason for higher reading by the non-ventilated net radiometer during dew and frost periods was due to emission of additional longwave radiation from water and ice crystals formed mainly on the upper dome of the Q7.1 net radiometer. In contrast, during the snowy day of 24 February 2005, the R_n,unvent. was less than R_n,vent. (− 4.00 MJ m^− 2 vs. 0.77 MJ m^− 2, mainly from sunrise to sunset). The extremely low R_n,unvent. measured by the non-ventilated net radiometer on 24 February 2005 is due to blocking of the incoming solar radiation (mainly diffuse radiation) by the snow-covered upper dome.     

The available energy over a Scots Pine plantation: What's up for partitioning?

Summary Errors influencing the calculation of the available energy above a forest are discussed. The main emphasis is put on the investigation of the problems affecting the measurement of net radiation. This is done by utilizing the data set of a surface energy balance experiment which was conducted in and above a Scots Pine plantation from May 11 to 22, 1992. During that Hartheimer Experiment (HartX) there were redundant measurements of net radiation using five different radiometers of three different designs. The initially fair agreement between the net radiometer readings was considerably improved by introducing different responsivities for the shortand longwave range. The mean deviations to the relative net radiation after correction vary between — 1.4 and 1.2 Wm^–2 with standard deviations between ± 5.4 and 6.6 Wm^–2. The total error referring to the available energy is estimated to be up to ± 36 Wm^–2 (± 6%) around midday decreasing to 10 Wm^–2 during nighttime.With 3 Figures     

成都东北部地区太阳辐射特征分析

该文利用2018年1月—12月成都东北部地区的太阳辐射观测资料,分析了辐射能量的收支状况和特征。结果表明:成都东北部地区各辐射分量(除净长波辐射)均是夏季最强,冬季最弱,最大值出现在8月。净长波辐射春季最强,秋季最弱,与空气相对湿度、气温日较差分别成负相关、正相关。净全辐射白天为正值,晚上为负值。成都东北部地区全年有10.7%的太阳短波辐射被地表反射,接收的太阳短波辐射有29.36%被地表以长波辐射的方式释放到大气,对地气系统能量收支的贡献为61.18%。     

Energy balance storage terms in a mature mixed forest at Petawawa,Ontario — A case study

The energy storage terms for a mature mixed forest at Petawawa, Ontario are reported for 38 days in the summer of 1982 when the forest was in full leaf. Hourly, daily and daytime values of the storage terms are documented. The biomass storage term, Q _v , should be calculated from measurement of biomass temperature change. For hourly periods, the storage terms can be of significant size with respect to net radiation, Q ^*. This is especially the case at night, in the early morning after sunrise, and near sunset. The importance of the storage terms is still pronounced when daytime totals are considered — the ratio of the total storage (Q _s ) to Q ^* varied from 1 to 15% for the whole sample, but is typically between 5 and 10%. For daily totals when the canopy is dry and the net radiation high, Q _s is typically 2 to 3 % of Q ^*. However, it can be up to 10% of Q ^* under particular conditions (overcast days, or during or immediately following rainfall).     

青藏高原冬小麦田辐射能量收支的初步研究

通过对青藏高原冬小麦田净全辐射各分量的观测资料分析，论述了净全辐射及其各分量的日变化特征；计算得出冬小麦抽穗—乳熟期麦田平均反射率为13.3%，净全辐射占总辐射百分率:白天75%，包括夜间67.4%；指出了净全辐射和总辐射间存在良好的线性关系，给出了由总辐射计算净全辐射的经验公式。     

Estimation of net radiation and surface heat fluxes using NOAA-7 satellite infrared data during fair-weather cloudy situations of Mesogers-84 experiment

Estimation of radiation during fair weather cloudy situations of the MESOGERS-84 experiment has been examined using micrometeorological observations and satellite data. Diurnal variation of cloudiness is empirically determined using satellite information as a function of global radiation, and relationships between net incoming radiation and global radiation are analyzed. Particularly, it has been found that a very simple relationship between global radiation, cloudiness and net radiative heat flux proposed by Nielsenet al. (1981) can be used with satellite data and applied to the Mesogers region in Southwest France. The different relationships between cloudiness and radiation are utilized to modify and to validate Taconet'set al. model (1986) to get fluxes related to a cloudy situation without advection.     

内蒙古奈曼麦田和沙丘微气象特性研究

本文分析了内蒙古奈曼旗尧勒甸子村麦田冠层上方和流动沙丘的微气象特性，结果表明：（１）麦田和沙丘的反射率分别为２１％和３４％；（２）麦田白天约有６０％的净辐用于潜热交换，夜里净辐的大部分来自土壤热交换（３５％）和潜热交换（４１％）；沙丘白天的４８％的净辐射用于土壤热交换，夜里有５２％的净辐射由土壤热交换补给。（３）波文比在麦田和沙丘都是早晨和夜里大，白天小，（４）白天麦田上方的水汽压低于近麦层的，夜     

Net radiation — soil heat flux relations as influenced by soil water content variations

Net radiation, soil heat flux, incoming and reflected solar radiation, and soil water content were measured during several clear day periods following approximate 10-cm applications of water to loam soils at Phoenix, Arizona, and at Sidney, Montana. The regression of soil heat flux on net radiation changed significantly as the soil dried, with the difference between them being a linear function of the volumetric soil water content of the uppermost 2 to 4 cm of soil. The net radiation-soil heat flux difference for soil in an air-dry state was only about one-half of what it was on the day after irrigation. Techniques discussed allow evaluation of what the net radiation-soil heat flux difference would be under conditions of no surface saturation deficit at any time of year from measurements of net solar radiation, soil water content, and air temperature, thereby improving the utility of many evaporation models. The data also indicate that water content measurements may be replaced by more easily measured soil albedo.     

Energy balance comparison of sorghum and sunflower

Summary An understanding of the energy exchange processes at the surface of the earth is necessary for studies of global climate change. If the climate becomes drier, as is predicted for northern mid-latitudes, it is important to know how major agricultural crops will play a role in the budget of heat and moisture. Thus, the energy balance components of sorghum [Sorghum bicolor (L.) Moench.] and sunflower (Helianthus annuus L.), two drought-resistant crops grown in the areas where summertime drying is forecasted, were compared. Soil water content and evapotranspiration (ET) rates also were determined. Net radiation was measured with net radiometers. Soil heat flux was analyzed with heat flux plates and thermocouples. The Bowen ratio method was used to determine sensible and latent heat fluxes. Sunflower had a higher evapotranspiration rate and depleted more water from the soil than sorghum. Soil heat flux into the soil during the daytime was greater for sorghum than sunflower, which was probably the result of the more erect leaves of sorghum. Nocturnal net radiation loss from the sorghum crop was greater than that from the sunflower crop, perhaps because more heat was stored in the soil under the sorghum crop. But daytime net radiation values were similar for the two crops. The data indicated that models of climate change must differentiate nighttime net radiation of agricultural crops. Sensible heat flux was not always less (or greater) for sorghum compared to sunflower. Sunflower had greater daytime values for latent heat flux, reflecting its greater depletion of water from the soil. Evapotranspiration rates determined by the energy balance method agreed relatively well with those found by the water balance method. For example, on 8 July (43 days after planting), the ET rates found by the energy-balance and water-balance methods were 4.6 vs. 5.5 mm/day for sunflower, respectively; for sorghum, these values were 4.0 vs. 3.5 mm/day, respectively. If the climate does become drier, the lower soil water use and lower latent heat flux of sorghum compared to sunflower suggest that sorghum will be better adapted to the climate change.Contribution from the Kansas Agricultural Experiment Station. F. Rachidi is now with the Département d'Écologie Végétale et Pastoralisme, École Nationale d'Agriculture, Meknès, Morocco, and E. T. Kanemasu is now with the Department of Agronomy, University of Georgia, Griffin, Georgia, U.S.A.With 5 Figures     

The Energy Balance Experiment EBEX-2000. Part III: Behaviour and quality of the radiation measurements

An important part of the Energy Balance Experiment (EBEX-2000) was the measurement of the net radiation and its components. Since the terrain, an irrigated cotton field, could not be considered homogeneous, radiation measurements were made at nine sites using a variety of radiation instruments, including pyranometers, pyrgeometers and net radiometers. At several of these sites multiple instruments were employed, which enabled us to compare instruments and assess accuracies. At all sites the outgoing longwave and shortwave radiation and the net radiation were measured, while the incoming radiation was supposed to be uniformly distributed over the field and was therefore measured at three sites only. Net radiation was calculated for all sites from the sum of its four components, and compared with the direct measurement of net radiometers. The main conclusions were: (a) the outgoing shortwave radiation showed differences of up to 30 W m⁻² over the field; the differences were not clearly related to the irrigation events; (b) the outgoing longwave radiation showed differences of up to 50 W m⁻²; the differences increased during the periods of irrigation; (c) the net radiation showed differences of several tens of W m⁻² across the field, rising to 50 W m⁻² or more during the periods of irrigation; (d) the net radiation is preferably to be inferred from its four components, rather than measured directly, and (e) attention should be paid to the characteristics of pyranometers that measure the outgoing radiation, and thus are mounted upside down, while they are commonly calibrated in the upward position. The error in the net radiation at EBEX-2000 is estimated at max (25 W m⁻², 5%) per site during the day and 10 W m⁻² at night. The National Center for Atmospheric Research is supported by the National Science Foundation.     

Energy Fluxes of an Open Water Area in a mid-Latitude Prairie Wetland

Concurrent measurements of the surface energy balance components (net radiation, heat storage, and sensible and latent heat fluxes) were made in three communities (open water, Phragmites australis, Scirpus acutus) in a wetland in north-central Nebraska, U.S.A., during May-October, 1994. The Bowen ratio – energy balance method was used to calculate latent and sensible heat fluxes. This paper presents results from the open water area. The heat stored in water (G) was found to play a major role in the energy exchange over the water surface. During daytime, G consumed 45–60% of R _n , the net radiation (seasonally averaged daytime G was about 127 W m^–2). At night, G was a significant source of energy (seasonally averaged nighttime G was about -135 Wm^–). The diurnal pattern of latent heat flux ( E) did not follow that of R _n . On some days, E was near zero during midday periods with large R _n . The diurnal variability in E seemed to be significantly affected by temperature inversions formed over the cool water surface. The daily evaporation rate (E) ranged from 2 to 8 mm during the measurement period, and was generally between 70 and 135% of the equilibrium rate.     

Surface radiation budget at Barrow,Alaska

Summary At Barrow, the most northerly point in the U.S., radiation measurements were carried out. It was found that multiple reflection between the ground and stratus clouds, due to high surface albedo in winter, enhances the global radiation. These measurements are in agreement with model results. This, together with cloud amount, makes effective transmittance of the atmosphere highest in spring, resulting in the highest values of irradiation in May. For the same cloud amount, the effective transmittance of the atmosphere is always larger in winter, when there is a highly reflective surface, than in summer.Irradiation on a south slope, inclined to latitude (71°) and south wall was higher in spring and fall, but lower than the horizontal in summer. The annual mean was not substantially different for all three surfaces.The net radiation was positive for only three months (June, July, and August). May, with the largest amount of global radiation, displayed values around zero. The high surface albedo reflects most of the incoming radiation back to space, indicating that the net radiation is more controlled by the albedo than by the incoming global radiation.With 11 Figures     

阿尔卑斯山杉林冠层影响辐射传输的个例分析

利用瑞士Alptal观测站杉树林冠层上方、下方的辐射观测资料,分析了冠层对短波辐射的减弱及对长波辐射的增幅作用及其季节变化。结果表明,对比较密集的常绿针叶林,冠层对入射短波辐射的透过率随着太阳高度的降低而减小,春季以后趋于稳定;冠层对长波辐射的增幅作用随天气状况而变化,这种增幅作用在晴空条件下最显著,可达1.5倍。在冬季,因为太阳辐射较弱,冠层对长波辐射的增幅作用超过对短波辐射的减弱从而增加地面净辐射。在其它季节,太阳辐射比较强,冠层对短波辐射的减弱超过对长波辐射的增幅作用而减少地面净辐射。地面净辐射与冠层上方气温的变化趋势虽然在有些时段一致,但在伴随降雪过程的降温时段,地面净辐射与气温的变化趋势近乎反相,在积雪融化时段,地面净辐射的增加比气温升高更显著,尤其是在白天。     

The role of wintertime radiation in maintaining and destroying stable layers

Summary Strong stable layers are a common occurrence during western Colorado's winter. Analysis of radiosonde observations indicate wintertime boundary layer heights are near 500 m. The terrain in this region consists of mountains that rise approximately 1500–2000 m above the ground to the east, providing an effective blocking barrier. An experiment is described to observe upwelling and downwelling, longwave and shortwave radiative fluxes at two sites in western Colorado during January and February 1992, for combinations of clear, cloudy, snow covered, and bare ground periods. Analysis of the observations and the surface energy budget for typical Bowen ratios provides a better understanding of the role of radiation in maintaining and destroying stable layers.During the day, the surface received a net gain of energy from radiation, while at night there was a net loss. Over snow, the 24-hour net radiative flux was small and either positive or negative. Over bare soil, the 24-hour net radiative flux was positive but still small. There is little difference in the net radiative flux between clear and cloudy days; the reduction of the incident solar flux by clouds is nearly compensated by the hindering of the longwave cooling. The cumulative effects of the 24-hour net radiative flux were negative over snow early in the experiment. The 24-hour values shifted to near zero as the snow albedo decreased and were positive for bare ground.If the daytime net radiative flux is partitioned into sensible and latent heat flux using typical Bowen ratios, the daytime sensible heat available for destroying boundary layers is small for the low solar angles of the winter season. With a Bowen ratio of 0.5, the daytime sensible heat flux available is only 0.3 to 1.2 MJ m^–2 over a snow surface and 1.4 to 2.3 MJ m^–2 over soil. These heat fluxes will not build a deep enough boundary layer to break a typical wintertime inversion. The 24-hour sensible heat flux was negative at both sites for the entire experiment with this Bowen ratio.The radiation observations and the use of typical Bowen ratios lead to the conclusion that the net radiation will sustain or strengthen a stable atmosphere in the winter season in western Colorado. Analysis of the radiosonde observations confirm this result as the boundary layer depths were less than 500 m early in the experiment and grew to only 700 m later in the experiment.With 12 Figures     

Regional climate simulation with a high resolution GCM: surface radiative fluxes

The ability of a high resolution (T106) version of the ECHAM3 general circulation model to simulate regional scale surface radiative fluxes has been assessed using observations from a new compilation of worldwide instrumentally-measured surface fluxes (Global Energy Balance Archive, GEBA). The focus is on the European region where the highest density of observations is found, and their use for the validation of global and regional climate models is demonstrated. The available data allow a separate assessment of the simulated fluxes of surface shortwave, longwave, and net radiation for this region. In summer, the incoming shortwave radiation calculated by the ECHAM3/T106 model is overestimated by 45 W m^–2 over most of Europe, which implies a largely unrealistic forcing on the model surface scheme and excessive surface temperatures. In winter, too little incoming shortwave radiation reaches the model surface. Similar tendencies are found over large areas of the mid-latitudes. These biases are consistent with deficiencies in the simulation of cloud amount, relative humidity and clear sky radiative transfer. The incoming longwave radiation is underestimated at the European GEBA stations predominantly in summer. This largely compensates for the excessive shortwave flux, leading to annual mean net radiation values over Europe close to observations due to error cancellation, a feature already noted in the simulated global mean values in an earlier study. Furthermore, the annual cycle of the simulated surface net radiation is strongly affected by the deficiencies in the simulated incoming shortwave radiation. The high horizontal resolution of the GCM allows an assessment of orographically induced flux gradients based on observations from the European Alps. Although the model-calculated and observed flux fields substantially differ in their absolute values, several aspects of their gradients are realistically captured. The deficiencies identified in the model fields are generally consistent at most stations, indicating a high degree of representativeness of the measurements for their larger scale setting.     

Estimation of net radiation at sea

Abstract

Measurement of net radiation at sea is very difficult whereas, the measurement of global solar radiation or total downward radiation is much less complicated. Hence the dependencies of net radiation on global solar radiation and total downward radiation are studied from hourly Canadian GATE data.

Results show that net radiation can be estimated from measurements of incoming solar radiation or total downward radiation by empirical formulae to an accuracy comparable to that of measurement. However, these formulae must be established from measurements.