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1

Electronic Resource

Using Landsat data to estimate evapotranspiration of winter wheat (1977)

Kanemasu, E. T. ; Hellman, J. L. ; Bagley, J. O. ; [et al.]

Springer

Environmental management 1 (1977), S. 515-520

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ISSN: 1432-1009

Keywords: Evapotranspiration ; Remote sensing ; Modeling ; Winter wheat ; Landsat

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract An evapotranspiration (ET) model that accurately estimates daily water use and soil moisture on a regional basis is required for many agricultural and hydrological studies. The model should use meterological data that are readily available and crop information that is responsive to the changing vigor of the plants. We evaluated an ET model with a weighing lysimeter and then applied it to winter wheatfields at four Kansas locations. Model inputs are solar radiation, temperature, precipitation, and leaf area index (LAI); included in the outputs are estimates of transpiration, evaporation, and soil moisture. An equation was developed to estimate LAI from Landsat data. Because LAI can be estimated from satellites, the ET model can potentially be used on a regional basis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01866686

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2

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Microclimatic and crop responses to center pivot sprinkler and to surface irrigation (1983)

Steiner, J. L. ; Kanemasu, E. T. ; Hasza, D.

Springer

Irrigation science 4 (1983), S. 201-214

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ISSN: 1432-1319

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Over 1 million hectares are irrigated with center pivot sprinklers in the Great Plains, USA. Microclimatic conditions under center pivot systems will be affected somewhat by periodic sprinkling, but the extent of microclimatic modification to be expected from sprinkling in the High Plains region and the physiological implications have not been reported. We compared the leaf temperature, canopy air temperature, vapor pressure deficit, vapor pressure, soil temperature, and soil heat flux in a corn (Zea mays L.) canopy under center pivot sprinkler and surface irrigation. The crops were grown at Garden City, Kansas, in 1980, a hot, dry year, and in 1981, a relatively cool, wet year. Leaf and air temperatures in 1980 were significantly cooler undder sprinkler irrigation than under surface irrigation. Maximum, minimum, and mean daily leaf temperatures were reduced by 2°, 2°, and 1° C, respectively; and maximum, minimum, and mean canopy air temperatures were reduced by 3°, 1.5°, and 1.5° C, respectively. Leaf and minimum canopy air temperature reductions were significant at the 1 % level. Shorter irrigation intervals may explain the reduced stress on the sprinkled plots. We observed small, nonsignificant temperature reductions under the sprinkler in the 1981 season. No significant effects of irrigation type on vapor pressure deficit or on vapor pressure in the canopy were observed in 1980 or 1981. Analysis of the 1981 data indicated that most of the day-to-day variability in leaf and canopy temperatures is related to ambient air temperature and that canopy vapor pressure deficit and vapor pressure are related to both ambient temperature and ambient vapor pressure deficit. Soil temperatures were significantly reduced and soil heat flux increased under sprinkler irrigation. The diurnal response to sprinkler irrigation cycles was pronounced during early stress periods of the 1980 growing season. Leaf and canopy air temperature and vapor pressure deficit were all significantly lower throughout the day in recently irrigated areas compared to areas that were sprinkled one or two days earlier. Responses to sprinkling during nonstress periods of 1980 and 1981 only persisted while the leaves were wetted; after, conditions returned to levels found in the rest of the field.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00285526

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3

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Effect of soil temperature on sorghum emergence (1975)

Kanemasu, E. T. ; Bark, D. L. ; Chin Choy, E.

Springer

Plant and soil 43 (1975), S. 411-417

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ISSN: 1573-5036

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Soil temperature strongly influences both percentage germination and time of emergence of sorghum. Ten hybrids were hand planted in the field. Soil surface was irrigated frequently and emerging plants were counted daily. On three treatments, soil temperature was monitored every hour at five depths. Treatments were designed to achieve a range in surface soil temperature. Results of the study indicated an optimum germination temperature of about 23°C and a heat requirement of 67 degree days. The maturity classifications of the hybrids did not show a consistent trend in their heat requirement for emergence.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01928503

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4

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Effect of soil temperature on sorghum emergence (1975)

Kanemasu, E. T. ; Bark, D. L. ; Chin Choy, E.

Springer

Plant and soil 43 (1975), S. 411-417

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ISSN: 1573-5036

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Soil temperature strongly influences both percentage germination and time of emergence of sorghum. Ten hybrids were hand planted in the field. Soil surface was irrigated frequently and emerging plants were counted daily. On three treatments, soil temperature was monitored every hour at five depths. Treatments were designed to achieve a range in surface soil temperature. Results of the study indicated an optimum germination temperature of about 23°C and a heat requirement of 67 degree days. The maturity classifications of the hybrids did not show a consistent trend in their heat requirement for emergence.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01928503

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5

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A comparison of methods of estimating ammonia volatilization in the field (1988)

Ferguson, R. B. ; McInnes, K. J. ; Kissel, D. E. ; [et al.]

Springer

Nutrient cycling in agroecosystems 15 (1988), S. 55-69

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ISSN: 1573-0867

Keywords: urea ; ammonia volatilization ; urea hydrolysis ; soil water content

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Accurate estimation of the potential for NH3 volatilization from urea-based fertilizers is an important step in attaining optimum N-use efficiency from these fertilizers. Published estimates of NH3 volatilization losses from urea vary widely. Much of this variability may be due to the method of estimation and the degree of influence of the method on NH3 loss. This study compared two field methods of estimating NH3 volatilization in the field; a microplot-forced draft method, and a micrometeorogical method. Loss of NH3 was estimated in three experiments following urea solution application to bare soil, and in two experiments following urea-ammonium nitrate solution application to wheat stubble residue. Both methods were found to be sensitive to soil and climatic variables influencing NH3 volatilization. Cumulative N loss from the bare soil experiments ranged from 7 to 8 kg N ha−1 for the microplot method and from 5 to 20 kg N ha−1 for the micrometeorological method. Cumulative loss from wheat stubble residue ranged from 2 to 2.2 kg N ha−1 for the microplot method and from 15 to 33 kg N ha−1 for the micrometerological method. Loss of NH3 was especially influenced by soil or residue water content and the influence of water content on the rate of urea hydrolysis. Maximum rates of loss were generally observed near midday, when water content at the soil surface was just beginning to decline and the surface temperature was rapidly rising. The microplot method was found to have a greater potential for affecting the environment and thus influencing NH3 loss measurements than the micrometeorological method. Windspeed and mixing at the soil surface was influenced by the presence of the microplot cylinder and lid, especially in the wheat residue experiments. It is likely that the micrometeorological method, with its minimal influence on the field environment, more accurately reflects actual levels of ammonia loss. The primary advantage of the microplotforced draft method is its ability to easily compare relative NH3 losses from different treatments.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01049187

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6

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Energy balance comparison of sorghum and sunflower (1993)

Rachidi, F. ; Kirkham, M. B. ; Kanemasu, E. T. ; [et al.]

Springer

Theoretical and applied climatology 48 (1993), S. 29-39

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ISSN: 1434-4483

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: 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.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00864911

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7

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Net carbon dioxide exchange in canopies of burned and unburned tallgrass prairie (1990)

Gale, W. J. ; Kirkham, M. B. ; Kanemasu, E. T. ; [et al.]

Springer

Theoretical and applied climatology 42 (1990), S. 237-244

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ISSN: 1434-4483

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Summary Net carbon dioxide exchange (NCE) rates were measured in a tallgrass prairie, a grassland with high productivity, to determine photosynthetic rates of the canopy. Canopy measurements were made in large, plexiglass chambers (1.21 m long; 0.91 m wide; 1.40 m tall) placed on burned and unburned areas of the prairie. The NCE rates of the canopy were compared with those of individual leaves ofAndropogon gerardii Vitman (big bluestem). In addition, CO2 flux from the soil was quantified and compared with net photosynthetic flux. The canopy NCE rates were generally lower than those made on individual leaves. In mid-summer (11 July 1987), the maximum canopy NCE rates were 55% and 64% of those measured on individual leaves in burned and unburned treatments, respectively. Canopy NCE rates were lower than individual-leaf NCE rates for two reasons. First, the individualleaf measurements were made on young, unshaded, healthy leaves, while the canopy measurements were made on all types of leaves including senescing, shaded, and damaged leaves. Second, soil CO2 flux into the chambers lowered NCE values. The CO2 flux from the soil ranged from 7.2% to 28.4% of the total NCE. One needs to add soil CO2 flux rates to the measured canopy NCE rates to obtain canopy NCE rates closer to individual-leaf NCE rates. Soil CO2 flux decreased when conditions became dry, reaching a low of 0.06 mg CO2m−2s−1, but increased after rain to 0.16 mg CO2m−2s−1. Also, after rain, when plants were well watered, they were not light saturated at 1 900 µEm−2s−1. The NCE rates on the burned treatment were either higher or similar to those on the unburned treatment. For example, on 11 July 1987, NCE rates were higher on the burned treatment (0.66 mg CO2m−2s−1) compared to the unburned treatment (0.47 mg CO2m−2s−1). During the rest of July and August, the rates of the two treatments were not significantly different. But in September and October, the NCE rates were again higher on the burned treatment compared to the unburned treatment. The results indicated that canopy NCE rates may be more indicative of the productivity of the prairie than individual-leaf measurements made only on young, highly productive leaves.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00865984

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