91. Chemical attributes in a Xanthic Ferralsol under different tillage systems.; Atributos quimicos de um Latossolo Amarelo sob diferentes sistemas de manejo.

• Authors:
  • Campos, L. P.
  • Leite, L. F. C.
  • Maciel, G. A.
  • Iwata, B. de F.
  • Nobrega, J. C. A.
• Source: Pesquisa Agropecuária Brasileira
• Volume: 46
• Issue: 12
• Year: 2011
• Summary: The objective of this work was to evaluate the chemical attributes in a Xanthic Ferralsol under different tillage systems in the cerrado of Piaui State, Brazil. Four tillage systems were evaluated: three-year-old conventional tillage; no-tillage with three (NT3) and five years old (NT5), using millet as cover crop; and no-tillage with nine years old (NT9), of which seven years used millet as cover crop and two used forage. A native cerrado area was taken as reference. Soil samples were collected in wet and dry seasons at soil depths, 0.00-0.05, 0.05-0.10, 0.10-0.20 and 0.20-0.40 m, and analyzed for pH, Al 3+, H+Al, Ca 2+, Mg 2+, K +, sum of bases (SB), effective (t) and potential (T) cation exchangeable capacity, base (BS) and Al 3+ saturation (m%), available P and total organic carbon (TOC). The system NT9 showed the highest values of pH and lowest of Al 3+, H+Al, and m%. The highest values for Ca 2+, K, SB, t, T, V% and P, were observed under NT5 and NT9, until 0.20 m depth. The highest TOC contents were verified also under NT5 and NT9, except for 0.00-0.05 m soil depth. Organic matter accumulation associated with pasture under no-till increases TOC content at deeper soil layers in the dry period.

92. Evaluation of some soil quality indices under two soil tillage systems in a tropical region of south east Mexico.

• Authors:
  • Campos-Magana, S. G.
  • Cadena-Zapata, M.
• Source: Campos-Magana, SG
• Volume: 42
• Issue: 4
• Year: 2011
• Summary: A five year field experiment was conducted to assess the interaction between soil tillage levels, maize-sorghum-legume rotation and two levels of chemical fertilization at the rain feed tropical region of southeast Mexico. The purpose of this research work was to asses this interaction over the variation of some soil quality indices and the effect on the productivity of the soil-grain yield. The treatments for soil tillage were zero till and the intensive traditional soil tillage of the region. Crop rotations employed were five years maize (mmmmm), five years sorghum (sssss), two rotations; (smsms) and (msmsm) and two intercropping of legumes (f)-cereals, (fsfsf) and (fmsmf). Ninety two and 136 units of nitrogen were the two levels of fertilization and were applied only to the cereals. The evaluated soil index in the first and fifth year were organic matter (mo), water infiltration rate (ir), aggregate stability (as), ph, biomass microbiana (mb), nitrogen soluble nitrogen, soil density (sd), soil depth (sd), electrical conductivity (ec) and availability of nutrients. In general terms, the best grain yield for both sorghum and maize were obtained with the no till treatment although no big differences were observed between them. The five year sorghum mean yield under no till with fertilization levels 1 and 2 were 3.6 and 4.5 Mg/ha, whereas, with conventional tillage these were just 3.1 and 4.1 Mg/ha, respectively. The grain yield of maize with level 2 of nitrogen, with zero and traditional till were 5.1 and 4.6 Mg/ha; however, with nitrogen level 1 there were no apparent advantages of the first treatment (3.8 Mg/ha in both cases). The type of crop rotation and soil tillage level mainly affected the chemical soil index at 0 to 5 cm depth. However, no effect occurred with the way of handling crop residues and with the levels of chemical fertilization. The main values of electrical conductivity were attributed to an increase in the solubility of some elements. It was also observed that, under no till, there was an increase of the levels of soluble carbon.

93. Evaluation of soil fertility quality in different tillage treatments based on factor analysis - a case of the southern edge of the Mu Su desert.

• Authors:
  • FaQi, W.
  • JinYin, L.
  • LongShan, Z.
  • XiaoLing, Y.
  • WeiPeng, C.
• Source: Journal of Northwest A & F University - Natural Science Edition
• Volume: 39
• Issue: 1
• Year: 2011
• Summary: Objective: The objective of this article was to evaluate the soil quality under different mechanical tillage treatments: no-till with straw-mulching (SM), no-tillage (NT), film-mulching (FM), conventional tillage (CT), in the southern edge of Mu Us desert. Method: Based on results obtained from an experiment of six years, 13 soil fertility indexes were selected and grouped into three common factors using factor analysis method: the potential fertilizer factor F1, organic matter factor F2, biological activity factor F3, and calculated scores of all measures were comprehensive and crop yields were used to verify the evaluation results. Result: The results showed that: (1) The score trend of soil fertility quality under different tillages was film-mulching > no-tillage=conventional tillage > no-till with straw-mulching, which was basically consistent with yield trend film-mulching > conventional tillage > no-tillage > no-till with straw-mulching, indicating evaluation results were reliable and valid. (2) Owing to microbes under straw mulching treatment consuming a large amount of nutrients, three common factors had lower scores and soil fertility quality score was the lowest in the no-till with straw-mulching treatment; The highest soil organic matter factor score in the no-tillage treatment indicated that the no-tillage measure was conducive to the accumulation of soil organic matter; The highest soil potential fertility factor score but lower soil organic matter factor score in the conventional tillage measure indicated that the conventional tillage measure was not conducive to the accumulation of soil organic matter, and cannot be the best treatment for sustainable agricultural development; The highest biological activity score but the lowest soil potential fertility factor score in the film-mulching treatment indicated that the FM treatment was conducive to the effectuate of potential soil nutrient. Conclusion: Factor analysis method could better reflect quality of soil fertility and could be used for soil quality evaluation.

94. Soil tillage effects on quality of grain in maize, soybean and winter wheat, and their main characteristics, under irrigation conditions.; Influenta lucrarilor solului asupra calitatii recoltelor de porumb, soia si grau si principalele caracteristici ale acestora, in conditii de irigare.

• Authors:
  • Cociu, A. I.
  • Alionte, E.
• Source: Analele Institutului National de Cercetare-Dezvoltare Agricola Fundulea
• Volume: 79
• Issue: 2
• Year: 2011
• Summary: Grain yields of winter wheat (Triticum aestivum L.), maize ( Zea mays L.), and soybean [ Glycine max. (L.) Merr], in rotation were significantly influenced by soil deep loosening and tillage system, depending on water supply (irrigation application). Scientific literature regarding the influence of these agronomic factors on the yield quality of the respective three crops, in rotation, is quite limited. For this study, a field experiment was carried out at Fundulea, which is located in the eastern part of the Danube Plain, on a cambic chernozem soil type. One of the main objectives was to determine how the grain yield quality of winter wheat, maize and soybean is influenced by different reduced tillage systems, in comparison with the traditional (conventional) one, as well as by the direct seeding in non-worked ground, or in strip till, with and without soil deep loosing, under different irrigations. Regarding the maize, the water provisioning * tillage system interaction was very significant (P0.05). Under the three water provisions applied, protein content had values between 40.0%, recorded when the normal irrigation rate was used, at no till system, and 41.5%, recorded for the dry conditions, also at no till system. The 1,000 kernel weight varied between 120 g, registered for the dry conditions at no till variant, and 159 g, registered for normal irrigation rate, also at no till system. The results of this research do not make evident a certain tendency of protein content, but show clearly that the fat content increases concomitantly with grain yield growing. As concerns the winter wheat crop, the water provisioning * tillage system interaction was not significant (P>0.05). Protein content was comprised between 13.2%, registered when the normal irrigation rate was applied at no till system variant, and 15.7%, under dry conditions, at the traditional tillage system. The minimum value of 1,000 kernel weight was 37 g, recorded for dry conditions at chisel tillage variant, and the highest value, of 47 g, was obtained when normal irrigation rate was applied to no till variant.

95. Effects of nitrogen and phosphorus on dry farming spring corn yield and water use efficiency under different tillage practices.

• Authors:
  • Kuai, D.
  • DianXiong, C.
  • XiaoMing, Z.
  • Yan, W.
  • QuanSheng, Z.
  • DingChen, Z.
  • ZongHui, F.
  • XiaoHong, X.
  • XiaoBin, W.
• Source: Transactions of the Chinese Society of Agricultural Engineering
• Volume: 27
• Issue: 2
• Year: 2011
• Summary: A six-year experiment (2003 to 2008) was conducted in Shouyang Dryland Farming Experimental Station in Shanxi Province to study the effect of different tillage practices (no-tillage, reduced tillage and conventional tillage) with three nitrogen (N) and phosphorus (P 2O 5) fertilizer rates (105, 179 and 210 kg/hm2; N:P 2O 5=1:1) on spring corn yield and water use efficiency. The results showed that at the recommended fertilizer rate of 105 kg/hm 2, the average yield and water use efficiency (WUE) were about 5 234 kg/hm 2 and 12.4 kg/(hm 2.mm), respectively, under conventional tillage (CT), and about 5 751 kg/hm 2 and 13.6 kg/(hm 2.mm), respectively, under reduced tillage (RT). The average yield and WUE under RT increased by about 9.9% and 9.7%, respectively, compared to CT. Under no-tillage (NT), the average yield and WUE, at the fertilizer rate of 179 kg/hm 2, were highest, about 5 336 kg/hm 2 and 13.2 kg/(hm 2.mm), respectively, which were about 6.1% and 9.7% higher than those under CT. The NT increased soil water contents, resulting in higher yields in dry years, compared to CT. Among three tillage practices, the average yield and WUE were ranked as RT >NT >CT.

96. Evolution of the ecopedological features of cambic chernozem from Vinga High Plain in conservative and conventional tillage systems.

• Authors:
  • Dicu, D.
  • Ţărau, D.
  • Borza, I.
• Source: Research Journal of Agricultural Science
• Volume: 43
• Issue: 3
• Year: 2011
• Summary: This study presents some aspects regarding the physical-geographical characterization necessary for the experimental field localization. Briefly introduced are the geology and lithology of surface materials, climate conditions, land drainage etc., as defining elements for edaphic resources' main characteristics. To determine the physical, chemical and biological properties of Cambic Chernozems from Aradul Nou (Romania), more samples were collected in both natural settlement and in disturbed settlement. Soil conditions also determined the defining characteristics for the ecosystems productivity, granulated structure and humus content. Maize, soyabean and wheat were used as test plants. The results obtained in the soil and climate conditions mentioned, although not allow for a clear formulation of recommendations in the culture systems tested, but the background information gathered is extremely valuable for scientific substantiation of appropriate technologies in the future for climatic conditions specific of the area in which investigations were undertaken as well as similar areas, conservative tillage systems representing alternatives to conventional tillage systems by the effects of conservation of soil properties and yields In terms of crop suitability to no-till system, soil texture has some restrictions due to clay-clay and secondary compaction, without excluding the possibility of adopting no-till practices. Yields obtained by applying the conservative systems, can achieve differentiated results that show, at least close if not superior to classical ones. Choosing the system should be made, as appropriate, depending on plant, soil and climate specific conditions. The research supports the ability to promote no-till technology in production established itself selective implementation, where conditions are suitable ecopedological this system of agriculture, under effective management.

97. Conservation tillage for cassava ( Manihot esculenta crantz) production in the tropics.

• Authors:
  • Fasinmirin, J. T.
  • Reichert, J. M.
• Source: Soil & Tillage Research
• Volume: 113
• Issue: 1
• Year: 2011
• Summary: Cassava ( Manihot esculenta crantz) is often cultivated on tilled plots, traditionally on mounds and ridges with the use of hand hoes or tractor driven implements. These two conditions alter the soil structural parameters and most times increase the vulnerability of soil to erosion or compaction as a result of frequent machine movement under the conventional tillage system. A review of the effects of tillage systems on soil bulk density, total porosity and penetration resistance was conducted to investigate the effectiveness of soil conservation for the optimum production of cassava in the tropics. Tillage treatments under review were: conventional tillage (CT), no-till (NT), minimum tillage (MT) and soil compaction (CP). Our review indicated that the bulk density (BD) in plots under CT was not significantly different ( p<0.05) from the value of BD in plots under minimum tillage (MT) within the 0-5 cm soil layer, but was highest in soils under compaction due to traffic passes of heavy duty equipment. Soils under no-till were characterized with lowest bulk density within the 0-5 cm layer, but gradually increased in BD within the 10-20 cm soil layer, which offers the soil some structural stability. However, the difference in bulk densities between plots under NT and CP treatments were highly significant at p<0.05, with CP plots having the highest bulk density within the 0-30 cm soil layer. Total porosity was highest in soils under conventional tillage (CT) comparatively with other tillage systems. Organic matter accumulation in NT treatment resulted to higher total porosity compared with other systems except CT at the surface soil (0-5 cm) but with reduced porosity at the sub-surface soil. Total porosity was least in plots under traffic passes (compacted plots). Statistically, there were no significant differences in total porosity among plots under conventional tillage with mulch residues, conventional tillage without mulch residues and minimum tillage with mouldboard at the p<0.05. However, plots under minimum tillage without mouldboard had lower total porosity. Penetration resistance was higher in NT plots when compared with plots under CT system, except from compacted plots (CP), which offered highest resistance to penetration. A long term experiment showed that cassava root yield was highest under NT with mulch residues, with or without fertilizer application. The reviewed work further confirmed that cassava can be grown successfully under no-till (NT) to give the optimum growth and yield required of the crop, while conserving the soil physical properties.

98. Crop management effects on root and crown rot of wheat in West-Central Saskatchewan, Canada.

• Authors:
  • Fernandez, M. R.
  • Ulrich, D.
  • Brandt, S. A.
  • Zentner, R. P.
  • Wang, H.
  • Thomas, A. G.
  • Olfert, O.
• Source: Agronomy Journal
• Volume: 103
• Issue: 3
• Year: 2011
• Summary: The impact of cropping system management on root and crown rot of spring wheat ( Triticum aestivum L.) was examined on a Dark Brown Chernozem (Typic Boroll) soil in the Canadian Prairies. This systems approach tried to reflect the most common practices of organic and conventional producers in this region. The study consisted of a factorial combination of three input levels (high, with tillage, fertilizer and pesticides; reduced [RED], with conservation tillage, targeted fertilizer and weed control; and organic [ORG] with tillage and N-fixing legumes); and three levels of cropping diversity (low diversity with wheat and summerfallow or legume green manure fallow; diversified using annual grain crops; and diversified using annual grain crops and perennial forages). All rotations were 6 yr long. Subcrown internodes and crowns/lower culms of wheat plants were scored for discoloration, and fungi in discolored tissue were identified and quantified. Overall, input level had a greater impact on disease levels and fungal frequency than cropping diversity. Discoloration severity was lowest in the RED systems, which was attributed to lower percentage isolation of Cochliobolus sativus, the most common pathogen. Fusarium species varied with input level. The pathogens F. avenaceum and F. culmorum were most associated with RED and/or least associated with ORG systems, whereas the weak pathogen/saprophyte F. equiseti was most associated with ORG systems. Thus, ORG management helped to reduce populations of F. avenaceum and F. culmorum, two of the most important Fusarium pathogens in the Canadian Prairies.

99. Ecological management of intensively cropped agro-ecosystems improves soil quality with sustained productivity.

• Authors:
  • Robertson,G. P.
  • Hamilton,S. K.
  • Jasrotia,P.
  • Bhardwaj,A. K.
• Source: Agriculture, Ecosystems & Environment
• Volume: 140
• Issue: 3-4
• Year: 2011
• Summary: Intensively cropped agricultural production systems should be managed to improve soil quality and ecological processes and ultimately strengthen system capacity for sustained biological productivity. We examined the long-term changes (>20 years) in soil quality and productivity with incorporation of ecological management principles in a set of intensively managed row crop systems of the upper Midwest, USA. Replicated experimental treatments include corn (maize)-soybean-wheat cropping systems under four different management regimes: (a) conventional tillage and fertilizer/chemical inputs ( Conventional), (b) no tillage with conventional fertilizer/chemical inputs ( No-till), (c) conventional tillage with 30% of conventional fertilizer/chemical inputs and a leguminous cover crop ( Reduced Input), and (d) conventional tillage with no fertilizer/chemical input and a leguminous cover crop ( Organic). Effects of these treatments on soils were compared by developing a soil quality index (SQI) from 19 selected soil health indicators. An old field community maintained in early succession provided a benchmark for comparison. Reduction in tillage or fertilizer ( No-till, Reduced Input and Organic) resulted in increased SQI and improved crop production. The No-till (SQI=1.02) and Reduced Input (SQI=1.01) systems outperformed Conventional management (SQI=0.92) in nitrogen availability and use efficiency, soil stability and structure improvement, and microbial nitrogen processing. Improvements in soil quality corresponded with increased primary production and crop yield in these systems, illustrating the value of an ecologically defined SQI for assessing the long-term effects of fertility and tillage management regimes in agricultural production systems.

100. Organic versus conventional methods of fertilization and weed control in a long term rotation of cereals in semiarid Spain.

• Authors:
  • Lezaún, J. A.
  • Lacasta, C.
  • Ciria, P.
  • Aibar, J.
  • Pardo, G.
  • Zaragoza, C.
• Source: Chilean Journal of Agricultural Research
• Volume: 71
• Issue: 2
• Year: 2011
• Summary: Under semiarid conditions the response of cereal crops to chemical fertilizers and weed control practices with herbicides is often reduced. In fact, the economic profitability of agricultural production in many dryland regions is critically affected by high costs of inputs and low crop yields. As a solution, cropping systems like organic farming, obtaining similar yields and promoting environmental sustainability by reducing fertilizer and herbicides, could be an alternative to conventional systems. In this study, 23 trials were performed in five semiarid regions of Spain during 5 yr to compare different fertilizers and weed control methods on durum wheat ( Triticum durum Desf.) and barley ( Hordeum vulgare L.) yields. The following rotation pattern was developed on the experimental plots: fallow-barley-ground ploughed vetch ( Vicia sativa L.)-durum wheat. Plots either received organic fertilizer, chemical fertilizer, or no fertilizer. In addition, three levels of weed control were applied in cereal plots: flex-tine harrow tillage, conventional herbicide, and no weeding. The results indicated that neither the fertilization nor the weed control have effect on the yield crop.