271. Carbon fluxes on North American rangelands

• Authors:
  • Snyder, K.
  • Sims, P. L.
  • Schuman, G. E.
  • Saliendra, N. Z.
  • Morgan, J. A.
  • Mielnick, P.
  • Mayeux, H.
  • Johnson, D. A.
  • Haferkamp, M.
  • Gilmanov, T. G.
  • Frank, A. B.
  • Emmerich, W.
  • Dugas, W.
  • Bradford, J. A.
  • Angell, R.
  • Svejcar, T.
• Source: Rangeland Ecology & Management
• Volume: 61
• Issue: 5
• Year: 2008
• Summary: Rangelands account for almost half of the earth's land surface and may play an important role in the global carbon (C) cycle. We Studied net ecosystem exchange (NEE) of C on eight North American rangeland sites over a 6-yr period. Management practices and disturbance regimes can influence NEE; for consistency, we compared ungrazed and undisturbed rangelands including four Great Plains sites from Texas to North Dakota, two Southwestern hot desert sites in New Mexico and Arizona, and two Northwestern sagebrush steppe sites in Idaho and Oregon. We used the Bowen ratio-energy balance system for continuous measurements of energy, water vapor, and carbon dioxide (CO2) fluxes at each study site during the measurement period (1996 to 2001 for most sites). Data were processed and screened using standardized procedures, which facilitated across-location comparisons. Although almost any site could be either a sink or source for C depending on yearly weather patterns, five of the eight native rangelands typically were sinks for atmospheric CO2 during the study period. Both sagebrush steppe sites were sinks and three of four Great Plains grasslands were sinks, but the two Southwest hot desert sites were sources of C on an annual basis. Most rangelands were characterized by short periods of high C uptake (2 mo to 3 mo) and long periods of C balance or small respiratory losses of C. Weather patterns during the measurement period strongly influenced conclusions about NEE on any given rangeland site. Droughts tended to limit periods of high C uptake and thus cause even the most productive sites to become sources of C on an annual basis. Our results show that native rangelands are a potentially important terrestrial sink for atmospheric CO2, and maintaining the period of active C uptake will be critical if we are to manage rangelands for C sequestration.

272. The charcoal vision: a win win win scenario for simultaneously producing bioenergy, permanently sequestering carbon, while improving soil and water quality

• Authors:
  • Laird, D. A.
• Source: Agronomy Journal
• Volume: 100
• Issue: 1
• Year: 2008
• Summary: Processing biomass through a distributed network of fast pyrolyzers may be a sustainable platform for producing energy from biomass. Fast pyrolyzers thermally transform biomass into bio-oil, syngas, and charcoal. The syngas could provide the energy needs of the pyrolyzer. Bio-oil is an energy raw material ([~]17 MJ kg-1) that can be burned to generate heat or shipped to a refinery for processing into transportation fuels. Charcoal could also be used to generate energy; however, application of the charcoal co-product to soils may be key to sustainability. Application of charcoal to soils is hypothesized to increase bioavailable water, build soil organic matter, enhance nutrient cycling, lower bulk density, act as a liming agent, and reduce leaching of pesticides and nutrients to surface and ground water. The half-life of C in soil charcoal is in excess of 1000 yr. Hence, soil-applied charcoal will make both a lasting contribution to soil quality and C in the charcoal will be removed from the atmosphere and sequestered for millennia. Assuming the United States can annually produce 1.1 x 109 Mg of biomass from harvestable forest and crop lands, national implementation of The Charcoal Vision would generate enough bio-oil to displace 1.91 billion barrels of fossil fuel oil per year or about 25% of the current U.S. annual oil consumption. The combined C credit for fossil fuel displacement and permanent sequestration, 363 Tg per year, is 10% of the average annual U.S. emissions of CO2-C.

273. Semi-Arid Rangelands and Carbon Offset Markets: A Look at the Economic Prospects: Potentially New Economic Opportunities for Rangeland Managers

• Authors:
  • de Steiguer, J. E.
• Source: Rangelands
• Volume: 30
• Issue: 2
• Year: 2008

274. Water balance of the olive tree-annual crop association: a modeling approach.

• Authors:
  • Mechlia, N.
  • Masmoudi, M.
  • Lhomme, J.
  • Karray, J.
• Source: Agricultural Water Management
• Volume: 95
• Issue: 5
• Year: 2008
• Summary: Water transfers within mixed crops systems are complicated to understand due to the large number of complex interactions between the various components. Standard techniques fail to provide the proper assessment of the components of the water balance. Experiments and modeling developments are used to understand the dynamics of water transfers within the association of olive trees with annual crops under irrigation in Central Tunisia. The whole system is represented by a unit area made up of three components: a plot with the annual crop, a plot with the olive tree and a plot of bare soil. The modeling approach is based on the concept of reservoir. The model works on a daily time step and accounts for the lateral transfers of water occurring between the components of the system: (i) the water uptake by the roots of olive trees; (ii) the physical flow of water between the irrigated plot and the non-irrigated ones. A field experiment was carried out during 2 years (2002, 2003) and three crop cycles (spring potato, spring pea and autumn potato) in order to calibrate the model and test its validity. Olive tree transpiration was estimated from sap flow measurements and soil moisture in the different compartments was measured by neutron probe technique. The experimental data compare fairly well with the model outputs. The first purpose of the model is to understand the functioning of the olive tree-annual crop association from a water standpoint, but it can be easily extended to other intercropping systems mixing perennial vegetation with annual crops or used as a management tool. The estimates of the water extracted by the olive trees in each reservoir appear to be much more significant than those of the water physically transferred between reservoirs.

275. Detecting changes in riparian habitat conditions based on patterns of greenness change: A case study from the upper San Pedro River Basin, USA

• Authors:
  • Riitters, K. H.
  • Wade, T. G.
  • Neale, A. C.
  • Wickham, J. D.
  • Slonecker, E. T.
  • Edmonds, C. E.
  • Jones, K. B.
  • Kepnera, W. G.
• Source: Ecological Indicators
• Volume: 8
• Issue: 1
• Year: 2008
• Summary: Healthy riparian ecosystems in and and semi-arid regions exhibit shifting patterns of vegetation in response to periodic flooding. Their conditions also depend upon the amount of grazing and other human uses. Taking advantage of these system properties, we developed and tested an approach that utilizes historical Landsat data to track changes in the patterns of greenness (Normalized Difference Vegetation Index) within riparian zones. We tested the approach in the Upper San Pedro River of southeastern Arizona of the US, an unimpounded river system that flows north into the US from northern Mexico. We evaluated changes in the pattern of greenness in the San Pedro River National Conservation Area (SPRNCA), an area protected from grazing and development since 1988, and in a relatively unprotected area north of the SPRNCA (NA). The SPRNCA exhibited greater positive changes in greenness than did the NA. The SPRNCA also exhibited larger, more continuous patches of positive change than did the NA. These pattern differences may reflect greater pressures from grazing and urban sprawl in the NA than in the SPRNCA, as well as differences in floodplain width, depth to ground water, and base geology. The SPRNCA has greater amounts of ground and surface water available to support a riparian gallery forest than does the NA, and this may have influenced changes during the study period. Estimates of the direction of greenness change (positive or negative) from satellite imagery were similar to estimates derived from aerial photography, except in areas where changes were from one type of shrub community to another, and in areas with agriculture. Change estimates in these areas may be more difficult because of relatively low greenness values, and because of differences in soil moisture, sun-angle, and crop rotations among the dates of data collection. The potential for applying a satellite-based, greenness change approach to evaluate riparian ecosystem condition over broad geographic areas is also discussed. (C) 2007 Elsevier Ltd. All rights reserved.

276. Isoflavonoids, flavonoids, phenolic acids profiles and antioxidant activity of soybean seeds as affected by organic and bioorganic fertilization.

• Authors:
  • El-Mergawi, R.
  • Taie, H. A. A.
  • Radwan, S.
• Source: American-Eurasian Journal of Agricultural & Environmental Science
• Volume: 4
• Issue: 2
• Year: 2008
• Summary: Soyabean intake is inversely correlated with risks of several chronic diseases in human. Phytochemicals and in particular phenolic acids, flavonoids and isoflavonoids compounds present in soyabean seeds may be partially responsible for these health benefits through their antioxidants activity. In a pot experiment, soyabean plants were grown on sandy media and irrigated with Hoagland solution as inorganic treatment or grown under one of the three levels of compost, i.e. 25, 50 and 75%, alone or in a mixture with multibioorganic. Individual phenolic acids, quercetin, genistein and daidzein in seeds were quantified by HPLC. Changes in the levels of individual phenolics and less value of quercetin under various compost levels resulted in insignificant lower values of total phenolics and total flavonoids compared with inorganically grown seeds. Adding multi-bioorganic to 50 or 75% compost treatments produced great enhancement effects on the total phenolic, flavonoid, protocatechuic acid, p-hydroxybenzoic acid, chlorogenic acid, caffeic acid, quercetin, genistein and daidzein contents compared with the other treatments. The most enhancement effect was exhibited for phenolic acids, quercetin and genistein. Addition of multi-bioorganic to 50% compost treatments resulted in 68 and 40% increases in quercetin and genistein, respectively, compared with the inorganic treatment, as well as 90 and 47% increases, respectively, compared with 50% compost alone. The highest values of antioxidant activity was determined in soyabean seeds grown under 50 and 75% compost, especially when mixed with bioorganic. Using either 50 or 75% compost in a mixture with bioorganic caused increases in antioxidant activity, varying between 25 and 60% when compared with other inorganic and compost alone treatments. Bioorganic fertilizers play a role in determining antioxidant activity and phenolic metabolites of soyabean seeds.

277. Evaluation of hydroponic techniques on growth and productivity of greenhouse grown bell pepper and strawberry.

• Authors:
  • Christopher, A.
  • Thomas, B.
  • Albaho, M.
• Source: International Journal of Vegetable Science
• Volume: 14
• Issue: 1
• Year: 2008
• Summary: Two hydroponic techniques, i.e. nutrient film technique and A-shaped aeroponics, and a closed insulated pallet system based on continuous subirrigation system with fertilizers in reservoirs to ensure a reserve within the root zone (CIPS) were evaluated and compared to the conventional soil-based cultivation method (control) in Kuwait. The experiment was conducted in an acrylic covered greenhouse having an evaporative cooling system with ambient temperatures ranging from 15 to 20degreesC at night and 24 to 35degreesC during the day from October 2005 to May 2006. The vegetative growth, flowering, and fruiting of bell pepper ( Capsicum annuum cv. Yara) and strawberry ( Fragaria vesca cv. Americana Porter) were evaluated. Yields were lower in the closed systems than in the control. Significant differences were observed between the amounts of water consumed in the soilless techniques, with consumption ranging from 42.9 to 62.9% of the control for pepper and 54.3 to 79.1% of the control for strawberry. CIPS was the most promising system for protected agriculture because of its simplicity, recyclability of most of its components, and water conservation efficiency.

278. Overview of study on the tillage mode of water storage and soil moisture conservation for dry farming region in northern China.

• Authors:
  • Jia, H.
  • Ma, C.
  • Yang, Q.
  • Liu, Z.
  • Li, G.
  • Liu, H.
• Source: Nongye Jixie Xuebao = Transactions of the Chinese Society for Agricultural Machinery
• Volume: 38
• Issue: 12
• Year: 2007
• Summary: The present status of dry farming in northern China was analyzed and a three-year rotation tillage method suitable for the ridged cultivation region of northeastern China and the techniques for efficient utilization of natural rainfall in the Loess Plateau region of northwestern China was put forward. The tests conducted in the northeast showed that stalk mulching increased the percentage of soil moisture content by 10% and the content of soil organic matter by 0.06 percentage point after three years, decreased the volume density of soil by 0.09 g/cm 3, chiseling increased the percentage of soil moisture content by 26.2%, and less tillage increased the percentage of soil moisture content by 3 percentage point. The tests conducted in the northwest showed that for winter wheat, the percentage of water storage increased by 18-5%; for spring corn, the percentage of soil moisture content increased by 30%. The stalk mulching tests for two years showed that the content of soil organic matter increased by 0.05%-0.1% and the content of total nitrogen increased by about 0.1 g/kg.

279. Extractable soil phosphorus threshold values for dryland maize on the South African Highveld.

• Authors:
  • Schmidt, C. J. J.
  • Adriaanse, F. G.
  • Preez, C. C. du
• Source: South African Journal of Plant and Soil
• Volume: 24
• Issue: 1
• Year: 2007
• Summary: The principle objective of this study was to establish P fertilizer guidelines for dryland maize on the South African Highveld according to the sufficiency concept of soil extractable P. Data sets from nine different P fertilizer trials at various localities in the Free State, Gauteng, Mpumalanga and North West provinces were used. Different P treatments were applied for all trials in order to establish differences in extractable soil P levels, which were expected to have corresponding effects on maize yield. Long-term rainfall varied from 765 mm per annum for the Dirkiesdorp trial in the east to 494 mm per annum for the Wolmaransstad trial in the west. The duration of trials varied between one and nine seasons. The clay content of the top 150 mm soil at these localities ranged between 8.4 and 47%. Extractable P threshold values with varying R 2 values were derived for all localities. These values were related to soil properties and it was shown that the degree of leaching and silt-plus-clay content were the parameters that explained most of the variation. However, it was decided only to explore relationships between threshold P values and silt-plus-clay contents in more detail. By excluding data from two localities of which the topsoil contained free lime, the R 2 values of the mentioned relationships improved substantially so that P threshold values could be derived from the silt-plus-clay content range of the other seven localities. The extractable soil P threshold concentrations based on Bray 1 for the top 150 mm soil layer, to obtain 90% relative yield varied from 33.5 mg kg -1 at 13% silt-plus-clay to 14.6 mg kg -1 at 60% silt-plus-clay. These P thresholds were much higher on the sandy soils than the value of 19 mg P kg -1 (Bray 1) for 95% relative yield according to the ARC-Grain Crops Institute (1994) guidelines over all soils. This may not necessarily imply that overall more P fertilizers should be applied, since the corresponding soil sampling procedure also measures residual P from enriched zones over rows where P fertilizer was band-placed. Research results used to establish the ARC-Grain Crops Institute (1994) guidelines excluded sampling from enriched zones over rows.

280. Effect of tillage practices on Tilletia indica Mitra (Karnal bunt disease of wheat) in a rice-wheat rotation of the indo-gangetic plains.

• Authors:
  • Babu, K. S.
  • Sharma, R. K.
  • Kumar, K.
  • Sharma, A. K.
• Source: Crop Protection
• Volume: 26
• Issue: 6
• Year: 2007
• Summary: A study was conducted to evaluate the influence of tillage systems on the incidence of Tilletia indica (Karnal bunt) in a rice-wheat system that is the most popular and prevalent crop rotation in the Indo-Gangetic Plains of India. A total of 906 samples, were drawn from the farmers' fields during the month of April during the 3 years study period. The samples collected were 365, 171, and 370 from the zero tillage (ZT), furrow irrigated raise bed system (FIRBS), and conventional till (CT) sown fields, respectively. The disease incidence, incidence index and percent-infected samples were calculated and statistically analyzed. Results showed that ZT fields had the lowest mean incidence of Karnal bunt, i.e. 9.00% infected samples in comparison to 18.10% and 16.20% under FIRBS and CT, respectively. Similarly, the average infection in infected samples was equal in FIRBS and CT, but the samples from ZT were statistically lower. KB incidence index showed a similar trend. ZT has shown a reduced incidence of KB in comparison to the raised bed (FIRBS) and CT systems. If ZT is followed for a period of a few years, it may help in reducing the effective soil inoculum and reducing the disease incidence over time.