- Authors:
- Nagih, A.
- Lemalade, J. L.
- Alfandari, L.
- Plateau, G.
- Source: Annals of Operations Research
- Volume: 190
- Issue: 1
- Year: 2011
- Summary: We propose a Mixed-Integer Linear Programming model for a class of multi-period crop rotation optimization problems with demand constraints and incompatibility constraints between cultivation and fallow state on a land plot. This model is applied to a case study on Madagascan farms in the scope of a sustainable development campain against deforestation, where the objective is to better control agricultural space while covering seasonal needs of farmer. We propose an efficient upper bound computation and study the variation of the minimum number of plots and total space needed in function of the unitary surface area of a plot. Numerical results associated with the Madagascan case are reported.
- Authors:
- Hyman, J. M.
- Lichau, A.
- Richardson, A.
- Kerchner, C. D.
- Winsten, J. R.
- Source: Journal of Dairy Science
- Volume: 93
- Issue: 4
- Year: 2010
- Summary: This paper provides a summary of results from a recent survey of 987 dairy farmers in 4 northeastern US states. The survey results provide descriptive characteristics of the current state of dairy farming in the region, as well as farmer satisfaction levels, concerns, and plans for the future of their farming operations. The paper analyses characteristics of two increasingly important dairy production systems used in the Northeast. Averages from across the survey states (Maryland, Pennsylvania, New York, and Vermont) show that approximately 13% of dairy producers use management-intensive or rotational grazing and 7% use large, modern confinement systems with more than 300 cows. These more specialized production systems show many significant differences in farm and farmer characteristics, satisfaction levels, and plans for the future compared with farms using more traditional production systems. The changing structure of the dairy industry has potentially important implications for environmental quality, rural communities, and the food system.
- Authors:
- van Groenigen, K. J.
- van Kessel, C.
- Oenema, O.
- Velthof, G. L.
- van Groenigen, J. W.
- Source: European Journal of Soil Science
- Volume: 61
- Issue: 6
- Year: 2010
- Summary: Agricultural soils are the main anthropogenic source of nitrous oxide (N2O), largely because of nitrogen (N) fertilizer use. Commonly, N2O emissions are expressed as a function of N application rate. This suggests that smaller fertilizer applications always lead to smaller N2O emissions. Here we argue that, because of global demand for agricultural products, agronomic conditions should be included when assessing N2O emissions. Expressing N2O emissions in relation to crop productivity (expressed as above-ground N uptake: "yield-scaled N2O emissions") can express the N2O efficiency of a cropping system. We show how conventional relationships between N application rate, N uptake and N2O emissions can result in minimal yield-scaled N2O emissions at intermediate fertilizer-N rates. Key findings of a meta-analysis on yield-scaled N2O emissions by non-leguminous annual crops (19 independent studies and 147 data points) revealed that yield-scaled N2O emissions were smallest (8.4 g N2O-N kg-1N uptake) at application rates of approximately 180-190 kg Nha-1 and increased sharply after that (26.8 g N2O-N kg-1 N uptake at 301 kg N ha-1). If the above-ground N surplus was equal to or smaller than zero, yield-scaled N2O emissions remained stable and relatively small. At an N surplus of 90 kg N ha-1 yield-scaled emissions increased threefold. Furthermore, a negative relation between N use efficiency and yield-scaled N2O emissions was found. Therefore, we argue that agricultural management practices to reduce N2O emissions should focus on optimizing fertilizer-N use efficiency under median rates of N input, rather than on minimizing N application rates.
- Authors:
- Morales Perez, A.
- Sinuco Leon, D.
- Barrios Guio, J.
- Source: Acta Amazonica
- Volume: 40
- Issue: 1
- Year: 2010
- Summary: Volatile components present in the pulp of the grape Caimarona were studied by GC-MS. These were extracted by three techniques: assisted flavour evaporation of solvent (Solvent Assisted Flavour Evaporation SAFE), continuous extraction liquid-liquid (LL) and by steam distillation-extraction simultaneously with organic solvent (DES). The SAFE extract were described as soft and green herbal floral similar to those exhibited by the fresh pulp. The major component of this extract are linalool 1,2-propanediol and methyl salicylate. In contrast, the extract LL issued notes reminiscent of raisins and wine Muscat and their main components were acetic acid, methyl salicylate and 2,6-dimethyl-2 (Z), 7-octadien-1, 6 -diol. DES extract was described with as fresh, floral, cereal and sour and is constituted by a small number of components showing the negative effect of temperature on the extraction; their main components were 1,2-propanediol, and methyl salicylate linalool. Additionally, the major volatile components released by hydrolysis enzyme (Rohapect DSL) of the glycosides of the pulp were acetic acid, benzoic acid and vanillin.
- Authors:
- Nevenimo, T.
- Quartermain, A.
- Kurika, L.
- Moxon, J.
- Source: Science in New Guinea Journal
- Volume: 30
- Year: 2010
- Summary: Papua New Guinea has over 200 crop species that are being utilized, but information in terms of quantity and quality is extremely variable and sparse for most of these crops. The crop species of interest as crops for the future are determined by growing conditions in agro-ecological zones but about 11 indigenous and 25 exotic species of fruits, nuts and vegetables have been identified. Future research needs to include evaluation of these crops for biodiscovery or biofuels, identification of those that are high yielding and of high nutritive value for food, assessment of those meeting domestic or export demand, pest and disease tolerance or resistance and suitability for crop rotations or intercropping. Post-harvest factors are also seen as important in the development of underutilized crops. The priority species include the major staples (aroids and sweet potato), galip nut ( Canarium indicum), noni ( Morinda citrifolia), okari ( Terminalia kaernbacchii), sago ( Metroxylon sagu), aibika ( Abelmoschus manihot), aupa ( Amaranthus spp.), pitpit ( Sacchurum edule), pandanus ( Pandanus spp.) and kava ( Piper methysticum). Galip nut is highlighted as an excellent example of where progress has been made in development for commercialization. Many factors are important for success but public-private partnerships are possibly one of the major factors.
- Authors:
- Delve, R. J.
- Zingore, S.
- Nyawasha, R. W.
- Nyamangara, J.
- Masvaya, E. N.
- Giller, K. E.
- Source: Nutrient Cycling in Agroecosystems
- Volume: 88
- Issue: 1
- Year: 2010
- Summary: This paper examines a number of agronomic field experiments in different regions of sub-Saharan Africa to assess the associated variability in the efficiencies with which applied and available nutrients are taken up by crops under a wide range of management and environmental conditions. We consider N and P capture efficiencies (NCE and PCE, kg uptake kg(-1) nutrient availability), and N and P recovery efficiencies (NRE and PRE, kg uptake kg(-1) nutrient added). The analyzed cropping systems employed different soil fertility management practices that included (1) N and P mineral fertilizers (as sole or their combinations) (2) cattle manure composted then applied or applied directly to fields through animal corralling, and legume based systems separated into (3) improved fallows/cover crops-cereal sequences, and (4) grain legume-cereal rotations. Crop responses to added nutrients varied widely, which is a logical consequence of the wide diversity in the balance of production resources across regions from arid through wet tropics, coupled with an equally large array of management practices and inter-season variability. The NCE ranged from 0.05 to 0.98 kg kg(-1) for the different systems (NP fertilizers, 0.16-0.98; fallow/cover crops, 0.05-0.75; animal manure, 0.10-0.74 kg kg(-1)), while PCE ranged from 0.09 to 0.71 kg kg(-1), depending on soil conditions. The respective NREs averaged 0.38, 0.23 and 0.25 kg kg(-1). Cases were found where NREs were > 1 for mineral fertilizers or negative when poor quality manure immobilized soil N, while response to P was in many cases poor due to P fixation by soils. Other than good agronomy, it was apparent that flexible systems of fertilization that vary N input according to the current seasonal rainfall pattern offer opportunities for high resource capture and recovery efficiencies in semi-arid areas. We suggest the use of cropping systems modeling approaches to hasten the understanding of Africa's complex cropping systems.
- Authors:
- Marshall, E.
- Solomon, K.
- Hewitt, A.
- Source: Journal of Toxicology and Environmental Health
- Volume: 72
- Issue: 15/16
- Year: 2009
- Summary: A wind tunnel atomization study was conducted to measure the emission droplet size spectra for water and Glyphos (a glyphosate formulation sold in Colombia)+Cosmo-flux sprays for aerial application to control coca and poppy crops in Colombia. The droplet size spectra were measured in a wind tunnel for an Accu-Flo nozzle (with 16 size 0.085 [2.16 mm] orifices), under appropriate simulated aircraft speeds (up to 333 km/h), using a laser diffraction instrument covering a dynamic size range for droplets of 0.5 to 3,500 m. The spray drift potential of the glyphosate was modeled using the AGDISP spray application and drift model, using input parameters representative of those occurring in Colombia for typical aerial application operations. The droplet size spectra for tank mixes containing glyphosate and Cosmo-Flux were considerably finer than water and became finer with higher aircraft speeds. The tank mix with 44% glyphosate had a Dv0.5 of 128 m, while the value at the 4.9% glyphosate rate was 140 m. These are classified as very fine to fine sprays. Despite being relatively fine, modeling showed that the droplets would not evaporate as rapidly as most similarly sized agricultural sprays because the nonvolatile proportion of the tank mix (active and inert adjuvant ingredients) was large. Thus, longer range drift is small and most drift that does occur will deposit relatively close to the application area. Drift will only occur downwind and, with winds of velocity less than the modeled maximum of 9 km/h, the drift distance would be substantially reduced. Spray drift potential might be additionally reduced through various practices such as the selection of nozzles, tank mix adjuvants, aircraft speeds, and spray pressures that would produce coarser sprays. Species sensitivity distributions to glyphosate were constructed for plants and amphibians. Based on modeled drift and 5th centile concentrations, appropriate no-spray buffer zones (distance from the end of the spray boom as recorded electronically 5%) for protection of sensitive plants were 50-120 m for coca spray scenarios and considerably lower for poppy spray scenarios. The equivalent buffer zone for amphibia was 5 m. The low toxicity of glyphosate to humans suggests that these aerial applications are not a concern for human health.
- Authors:
- Tennigkeit, T.
- Woelcke, J.
- Source: Rural21: The International Journal for Rural Development
- Issue: 01
- Year: 2009
- Summary: The smallholder agricultural sector in East Africa can substantially contribute to climate change mitigation, generate carbon revenues for farmers, and enhance agrobiodiversity, while reducing farmers' vulnerability to climate change. Currently a demonstration project is being developed with support of the World Bank which will generate emission reductions based on the adoption of sustainable agricultural land management practices.
- Authors:
- Institute for the Study of Earth, Oceans and Space
- Year: 2009
- Summary: The DNDC model is a process-base model of carbon (C) and nitrogen (N) biogeochemistry in agricultural ecosystems. This document describes how to use the PC Windows versions of the DNDC model for predicting crop yield, C sequestration, nitrate leaching loss, and emissions of C and N gases in agroecosystems. Part I provides a brief description of the model structure with relevant scientific basis. Part II describes how to install the model. Part III and IV demonstrate how to conduct simulations with the site and regional versions of DNDC, respectively. Part V provides basic information for uncertainty analysis with DNDC. Part VI contains six case studies demonstrating the input procedures for simulating crop yield, soil C dynamics, nitrate leaching loss, and trace gas emissions. A list of relevant publications is included in Part VII. These publications provide more information about the scientific background and applications of DNDC far beyond this User's Guide. DNDC9.3 can run in two modes: site or regional. By selecting the mode, the users will open a corresponding interface to manage their input information for the modeled site or region.
- Authors:
- McNeill, A.
- Sommer, R.
- Ibrikci, H.
- Ryan, J.
- Source: Advances in Agronomy
- Volume: 104
- Year: 2009
- Summary: This review examines the varied aspects of N in the soils and cropping systems as reflected by research at The International Center for Agricultural Research in the Dry Areas (ICARDA) in Syria in collaboration with other countries of the West Asia-North Africa region, especially in Morocco and other countries north and south of the Mediterranean. The synthesis, therefore, reflects a broad overview of conditions that impinge an N nutrition of crops and the evolution of N research achievements since the advent of commercial fertilization over three decades ago. With few exceptions, the soils of the Mediterranean region are low in organic matter and consequently in the reserves of total N, thus posing a limit of growing crops without fertilizer N or biological N fixation (BNF) through legumes. Soil calibration studies established the value of the soil nitrate test as a predictor of crop response with field trials to establish application rates for the main crops. Applicability is influenced by depth of sampling and the extent of mineralization. Dryland crop responses to N varied widely throughout the region from 30 to 150 kg N ha -1, being dependent on soil N status and seasonal rainfall as the major determinant of yields. Splitting the N application was only advantageous in higher rainfall areas. Residual N from BNF by food and forage legumes influenced soil N supply for cereals and relative responses to N fertilizer. The contribution of rhizobia fixation to all the major legumes was quantified using 15N along with management factors that influenced BNF by legumes. Where legumes were newly introduced to a region, rhizobial inoculation was considered necessary. With cereal responses to fertilizer N, differences between varieties were highlighted. Where urea or ammonium-N fertilizers were used, volatilization was the main loss mechanisms rather than leaching or denitrification. Considerable work was done on N use within crop rotation systems and components of the N cycle defined along with inputs from urine and feces from grazing animals. Forage legumes were shown to enhance total soil N and both labile and biomass N, with the least influence from fallow. These N forms were shown to fluctuate during the year as moisture and temperature conditions changed. Fertilizer N use had a positive effect on grain quality with increased protein, as well as soil organic matter (SOM) and thus soil quality. The significant change of the gradual introduction of supplemental irrigation in traditional rainfed cropping areas and its implications for use of models to describe the complex nature of N in dryland cropping systems was described. With the likelihood of a continuation of intensification of the dryland cropping systems in the Mediterranean region, N fertilizer use will inevitably increase and along with it the need for greater use efficiency in the interest of production economics and the environment. While limited use has been made of modeling of N, this approach is likely to be of more significance in integrating the varied facets of N under Mediterranean cropping conditions.