681. Water use efficiency of cowpea and maize crops on single and intercropping systems in the Brazilian semiarid region.; Eficiencia do uso da agua das culturas do milho e do feijao-caupi sob sistemas de plantio exclusivo e consorciado no semiarido brasileiro.

• Authors:
  • Sediyama, G. C.
  • Moura, M. S. B. de
  • Souza, L. S. B. de
  • Silva, T. G. F. da
• Source: Bragantia
• Volume: 70
• Issue: 3
• Year: 2011
• Summary: This study aimed to analyze the productivity, the water use efficiency, and the economical viability for corn and cowpea crops on single and intercropping systems in the Brazilian semiarid region. The experiment was carried out at Petrolina, State of Pernambuco. The crops, in different planting systems (single and intercropping), underwent the five blades of irrigation, applied at the flowering stage of cowpea to 40 days after sowing. Combining the settings of cultivation system and the different depths of irrigation, crops of maize and cowpea were subjected to 15 different treatments. To evaluate the performance of crops in the different treatments indicators that consider the production response of crops and the performance of the application of water in the production system were used. The grain yield responses of maize and cowpea to the soil water content were reduced in intercropped plantations, in relation to single cropping. Even so, in economic terms, the adoption of maize-cowpea proved to be more advantageous in all treatments.

682. Assessment of vegetation response to drought in Nebraska using Terra-MODIS land surface temperature and normalized difference vegetation index.

• Authors:
  • Tadesse, T.
  • Narumalani, S.
  • Wardlow, B. D.
  • Swain, S.
  • Callahan, K.
• Source: GIScience & Remote Sensing
• Volume: 48
• Issue: 3
• Year: 2011
• Summary: Eight-day composite Terra-MODIS cumulative LST and NDVI timeseries data were used to analyze the responses of crop and grassland cover types to drought in Nebraska. Four hundred ninety 1 km pixels that included irrigated and non-irrigated corn and soybeans and three grassland cover types were selected across the state of Nebraska. Statistical analyses revealed that the majority of the land cover pixels experienced significantly higher daytime and nighttime LSTs and lower NDVI during the drought-year growing season ( p

683. Survey of moulds and mycotoxin contamination of cereals in South-Eastern Romania in 2008-2010.

• Authors:
  • Calin, L.
  • Taranu, I.
  • Tabuc, C.
• Source: Archiva Zootechnica
• Volume: 14
• Issue: 4
• Year: 2011
• Summary: Fungal mycoflora and mycotoxin contamination were determined in 86 samples (21 maize, 21 wheat, 11 barley, 4 oats, 1 rye, 12 soya, 6 sunflower, 4 colza, 3 rice, 3 triticale), coming from the south-eastern part of Romania during the 2008 to 2010 period. The most frequent fungal contaminants belonged to the Aspergillus and Fusarium genera, maize was the most contaminated cereal. The main toxinogenic species identified were A. flavus, A. fumigatus, F. graminearum, F. culmorum in all cereals Aflatoxin B1 (AFB1), ochratoxin A (OTA), deoxynivalenol (DON), zearalenone (ZEA) and fumonisins (FUMO), contents were analyzed by ELISA. More than 90% of the samples were found to be contaminated by at least one toxin. The most frequent mycotoxin was the deoxynivalenol (71.60%). Around 40% of samples were contaminated with AFB1 and FB. Ochratoxine A and zearalenone were found in 16% and 32% of samples respectively. These results demonstrated that cereals produced in Romania present a particular pattern of fungal mycoflora and mycotoxin contamination since DON, ZEA and FUMO as well as AFB1 and OTA were observed.

684. Soil fertility effect on water productivity of maize in the upper Blue Nile basin, Ethiopia.

• Authors:
  • Aster, D.
  • Awulachew, S. B.
  • Erkossa, T.
• Source: Agricultural Sciences
• Volume: 2
• Issue: 3
• Year: 2011
• Summary: Maize (Zea mays) is among the major cereals grown in the high rainfall areas of the sub-Saharan Africa's (SSA) such as the Ethiopian part of the Blue Nile basin. However, its productivity is severely constrained by poor soil, water and crop management practices. This study simulated the water productivity of the crop under varying soil fertility scenarios (poor, near optimal and none limiting) using hybrid seeds under rainfed conditions using the FAO Aqua-Crop model. The result indicated that grain yield of maize increased from 2.5 tons.ha -1 under poor to 6.4 and 9.2 tons.ha -1 with near optimal and non-limiting soil fertility conditions. Correspondingly, soil evaporation decreased from 446 mm to 285 and 204 mm, while transpiration increased from 146 to 268 and 355 mm. Consequently, grain water productivity was increased by 48% and 54%, respectively, with the near optimal and non-limiting soil fertility conditions. The water productivity gain mainly comes from reduced evaporation and increased transpiration without significantly affecting water left for downstream ecosystem services. Therefore, this has a huge implication for a basin scale water management planning for various purposes.

685. Methodological approaches to determining the distribution and specialization of crop production in a region.

• Authors:
  • Vinnichek, L.
  • Ivanov, A.
• Source: Mezhdunarodnyi Sel'skokhozyaistvennyi Zhurnal
• Issue: 5
• Year: 2011
• Summary: In Russia's Penza Oblast', cereal grain crops account for 58.1% of receipts from crop sales, sugarbeets account for 26.9%, and oil bearing crops 5.8%. Penza Oblast' can be divided into four different zones, each of which is characterized by different patterns of crop production. These zones are: (1) Vadinskii-Mokshanskii, comprising 12 raiony (administrative districts) in the Central and North Western parts of the oblast'; (2) Belinskii-Serdobskii, comprising seven raiony in the South and South West of the oblast'; (3) Nikol'skii-Gorodishchenskii, comprising three raiony in the North East of the oblast'; and (4) Kuznetskii-Lopatinskii, comprising five raiony in the South East and East of the oblast'. Zone (1) is characterized by average productivity soils, and includes 48.8% of the total land area used for cereal grain production in the oblast', 50.6% of land used for sugarbeet production, and 23.6% of land used for sunflower cultivation. Zone (2) has the highest productivity soils in the oblast', and accounts for 35.0% of the total land area used for cereal grain production in the oblast' and 49.4% of land used for sugarbeet cultivation in the oblast'. The fertility of most soils in zone (3) is poor, resulting in low productivity. Zone (3) accounts for just 4.0% of the total land area used for cereal grain production in the oblast', and technical crop production in this zone is almost nonexistent. Zone (4) accounts for 12.1% of the total land area used for cereal grain production in the oblast' and 31.5% of land used for sunflower cultivation. Sugarbeets are not grown in zone (4) because of the distance from sugar refineries. The zones in which crop production is most profitable are zones (1) and (2), which are also characterized by the highest degree of diversification. Overall, the most economically efficient crop types produced in the Oblast' are potatoes and sunflowers. Recommendations for the future development of different types of crop production in have been formulated on the basis of analysis of natural and economic factors existing in different parts of the oblast'. The recommendations relate to the cultivation of different cereal grain crops (including winter and summer wheat, barley, buckwheat, maize, rye and oats), legume crops (peas and lentils), sugarbeets, oil bearing crops (sunflowers, rape and camelina), potatoes, and other vegetables in the four different zones.

686. Nitrogen use efficiency of irrigated corn for three cropping systems in Nebraska.

• Authors:
  • Dobermann, A. R.
  • Shapiro, C. A.
  • Tarkalson, D. D.
  • Wortmann, C. S.
  • Ferguson, R. B.
  • Hergert, G. W.
  • Walters, D.
• Source: Agronomy Journal
• Volume: 103
• Issue: 1
• Year: 2011
• Summary: Nitrogen use efficiency (NUE) is of economic and environmental importance. Components of NUE were evaluated at in 32 irrigated corn (Zea mays L.) trials conducted across Nebraska with different N rates and where the previous crop was either corn (CC), drybean ( Phaseolus vulgaris L.) (CD), or soybean [Glycine max (L.) Merr.] (CS). The mean grain yield with adequate nutrient availability was 14.7 Mg ha -1 When no N was applied, measured soil properties and irrigation water N accounted for <20% of the variation in plant nitrogen uptake (UN). Mean fertilizer N recovery in aboveground biomass was 74% at the lowest N rate compared with 40% at the highest N rate, a mean of 64% at the economically optimal nitrogen rate (EONR), and least with CD. Agronomic efficiency of fertilizer N averaged 29 kg grain kg(-1) N at EONR and was also least with CD. Partial factor productivity of N averaged 100 kg grain kg(-1) N at EONR, and was greater with CS compared with CC and CD. Aft er harvest, residual soil nitrate nitrogen (RSN) in the 0- to 1.2-m depth ranged from 21 to 121 kg ha(-1) and increased with N rate. Mean RSN was 88, 59, and 59 kg ha(-1) for CD, CC, and CS, respectively. High corn yields can be achieved with high NUE and low RSN by management to maximize profitability in consideration of yield potential, and by applying N at the right amount and time.

687. Water use and yield of wheat/maize intercropping under alternate irrigation in the oasis field of northwest China.

• Authors:
  • Chai, Q.
  • Huang, G. B.
  • Yang, C. H.
  • Luo, Z. X.
• Source: Field Crops Research
• Volume: 124
• Issue: 3
• Year: 2011
• Summary: A field experiment was carried out to investigate the effects of alternate irrigation (AI) on the yield, water use and water use efficiency (WUE) of wheat (Triticum aestivum L.)/maize (Zea mays L.) intercropping system in an oasis region of northwest China in 2006-2008. Three planting patterns, i.e., sole wheat, sole maize and wheat/maize intercropping. Three irrigation levels were applied for each treatment during 3 years. Results showed that land use efficiency of wheat and maize was significantly enhanced by intercropping system; land equivalent ratio (LER) of wheat/maize intercropping system in different treatments was all greater than 1.0. Moreover, significant difference in grain yield was observed between intercropping treatment and sole cropping treatment, in which the yield of intercropped wheat was 55.37-74.88% of sole wheat, and intercropped maize was 66.63-78.87% of sole maize. Wheat/maize intercropping treatments increased water use by 1.8-16.4% than half of the total water use of sole-cropping wheat and maize. Compared to sole cropping wheat treatments, wheat/maize intercropping with alternate irrigation significantly improved water use efficiency (WUE) by 30.5-57.7%, 55.5-71.4% and 12.0-19.8%, and increased by 32.7-37.8%, 9.5-15.8% and 4.0-20.8% than sole cropping maize treatments in 2006-2008, respectively. Our results suggest that AI should be a useful water-saving irrigation method on wheat/maize intercropping in arid oasis field where intercropping planting is decreased because of limited water resource.

688. In-season prediction of corn yield using plant height under major production systems.

• Authors:
  • Tyler, D. D.
  • Jaja, N.
  • McClure, M. A.
  • Yin, X. H.
  • Hayes, R. M.
• Source: Agronomy Journal
• Volume: 103
• Issue: 3
• Year: 2011
• Summary: The relationship between corn ( Zea mays L.) yield and plant height has been poorly documented in major corn production systems. This study was conducted to assess the relationship of corn yield with plant height under four major corn production systems at Milan, TN from 2008 through 2010. Six N treatments at rates of 0, 62, 123, 185, 247, and 308 kg N ha -1 with four replications were evaluated in a randomized complete block design in the following corn production systems: nonirrigated corn after corn, nonirrigated corn after soybean [ Glycine max (L.) Merr.], nonirrigated corn after cotton [ Gossypium hirsutum (L.)], and irrigated corn after soybean. The regression of corn yield with plant height was significant and positive at 6-leaf growth stage (V6), 10-leaf growth stage (V10), and 12-leaf growth stage (V12), and mostly became stronger as plant growth progressed from V6 to V10 and to V12 under an exponential model in the four corn production systems for all 3 yr. In general, corn yield was strongly related with plant height measurements made at V10 and V12. Factors affecting the responses of plant height measured at V6, V10, and V12 or/and yield to the N treatments may have contributed to the variations of determination coeffient ( R2) values across years. In conclusion, corn yield may be predicted with plant height measurements collected during V10 to V12. This prediction provides a physiological basis for the utilization of high resolution plant height measurements to guide variable-rate N applications within the field on corn at around V10 and to more accurately estimate yield for earlier grain marketing purposes.

689. Interactions of a hairy vetch-corn rotation and P fertilizer on the NPK balance in an upland red soil of the Yunnan plateau

• Authors:
  • Zhang, Y. J.
  • Liu, R. T.
  • Zhu, X. Y.
• Source: African Journal of Biotechnology
• Volume: 10
• Issue: 45
• Year: 2011
• Summary: A field experiment was conducted on an infertile red soil under a hairy vetch (Vicia villosa Roth) and corn (Zea mays L.) rotation system in a highland area of Yunnan Province, China. Effects of phosphate (P) fertilization, combined with hairy vetch returned to the soil, on crop yield and soil fertility were studied, and the balances of nitrogen (N), phosphorus (P) and potassium (K) in the rotation system were estimated. As P application increased from 135 to 315 kg ha(-1), the dry matter yield of hairy vetch increased by 900.6 to 1283.86 kg DM ha(-1), and also promoted P absorption by hairy vetch. When compared with CK, the corn and corn straw yield increased by 16.64 and 33.48%, respectively, from the crop rotation system, while it increased by 18.36 and 34.96% and 32.58 and 66.5%, from the integrated use of green manure and P fertilizer, respectively. Simple crop rotation proceeding could improve soil N content in the 0 to 20 cm soil layer, while the combined P application improved soil P content. After corn harvest, soil Olsen-P content under the different treatments increased by 35.31 and 122.15% and 19.70 and 63.63% in the 0 to 10 and 10 to 20 cm soil layers, respectively. The optimum P fertilizer rate for the hairy vetch-corn rotation system in Yunnan Province was 135 kg P2O5 ha(-1). At this P rate, the nutrient balance surpluses for N, P and K were 84.9, 18.9 and 26.4%, respectively.

690. Soil management and traffic effects on infiltration of irrigation water applied using sprinklers

• Authors:
  • Gomez-Macpherson, H.
  • Mateos, L.
  • Boulal, H.
• Source: Irrigation Science
• Volume: 29
• Issue: 5
• Year: 2011
• Summary: Zero tillage and controlled traffic have been proposed as means for more productive and sustainable irrigated farming. Both practices affect soil infiltration characteristics and, therefore, should have effects on sprinkler irrigation performance. This study compared water infiltration and runoff in three sprinkler irrigation tests performed on an alluvial loam soil at different times during a maize (Zea mays L.)-cotton (Gossypium hirstium L.) rotation under two soil managements: permanent beds with crop residue retention (PB: planting beds maintained unaltered from year to year) and conventional beds with residues incorporated with tillage (CB: disc and chisel ploughing followed by rotavator pass and bed forming every year). Traffic was controlled and two types of furrows were distinguished in both tillage systems: with (+T) and without (-T) wheel traffic. The irrigation tests were performed on maize at full cover, on bare soil just before cotton sowing and on cotton with 50% ground cover. Infiltration and runoff were affected notably by both traffic and soil management. The soil under PB infiltrated more water than under CB, and -T furrows more than +T furrows. Considering the combined treatments, -T furrows in the CB system infiltrated more water than +T furrows in the PB system. A sprinkler irrigation model for simulating water application and soil infiltration and runoff was formulated. The model was used to analyse irrigation performance under infiltration characteristic of the CB and PB systems in trafficked and non-trafficked furrows. Five irrigation performance indicators were used to assess the various combinations of tillage and traffic: Wilkox-Swailes coefficient of uniformity; application efficiency; deep percolation ratio; tail water ratio; and adequacy. The model was used to develop operation diagrams and provided guidelines for making irrigation decisions in the new controlled traffic/permanent bed system and in a standard conventional system.