Comparative Economics of Conventional, Organic, and Alternative Agricultural Production Systems

Agricultural production systems are a composite of philosophy, adoptability, and careful analysis of risks and rewards. The two dominant typologies include conventional and organics, while biotechnology (GM) and Integrated Pest Management (IPM) represent situational modifiers. We conducted a systematic review to weigh the economic merits—as well as intangibles through an economic lens—of each standalone system and system plus modifier, where applicable. Overall, 17,485 articles were found between ScienceDirect and Google Scholar, with 213 initially screened based on putative relevance. Of those, 82 were selected for an in-depth analysis, with 63 ultimately used. Economically, organic generally outperformed conventional systems. This is largely due to their lower production costs and higher market price. However, organic farms face lower yields, especially in the fruit, vegetable, and animal husbandry sectors. With that said, organic farming can provide significant local environmental benefits. Integrated pest management (IPM) is a potentiator of either core system. As a risk reduction and decision-making framework, it is labor intensive. However, this can be offset by input reductions without yield penalty compared to a conventional baseline. Biotechnology is a rapidly emerging production system, notably in developing countries. The use of GM crops results in lower production cost and higher yields. As a conventional modifier, its major advantage is scale-neutrality. Thus, smaller and lower income farmers may achieve higher gross margin. The main source of environmental benefits is reduced pesticide use, which implies a decreased need for fuel and labor. Barring external influences such as subsidies and participation in prescriptive labeling programs, farmers should focus on an a la carte approach (as opposed to discrete system adoption) to optimize their respective enterprises.

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Essential Oils for Arthropod Pest Management in Agricultural Production Systems

Essential Oils in Food Preservation, Flavor and Safety ◽

10.1016/b978-0-12-416641-7.00006-7 ◽

2016 ◽

pp. 61-70 ◽

Cited By ~ 2

Author(s):

Yong-Lak Park ◽

Jun-Hyung Tak

Keyword(s):

Essential Oils ◽

Pest Management ◽

Agricultural Production ◽

Production Systems ◽

Arthropod Pest ◽

Agricultural Production Systems

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Future of peanut pest management: A plant pathologist's perspective.

Peanut Science ◽

10.3146/0095-3679-46.1a.107 ◽

2019 ◽

Vol 46 (1A) ◽

pp. 107-109 ◽

Cited By ~ 1

Author(s):

N.S. Dufault ◽

M. Paret ◽

I. Small

Keyword(s):

Pest Management ◽

Agricultural Production ◽

Production Systems ◽

Threshold Level ◽

Economic Threshold ◽

Timely Manner ◽

Novel Technologies ◽

Peanut Production ◽

Agricultural Production Systems ◽

Ipm Strategy

ABSTRACT Integrated pest management (IPM) is a broad-based approach for pest control that has been used since the 1950s. This approach uses a variety of management tactics to keep pest levels below an economic threshold level. However, choosing the appropriate tactics in a timely manner can be difficult in many agricultural production systems. Technology is continually revolutionizing agricultural decision making by transforming large quantities of data into useful and timely information. The focus of this article will be on what makes a successful IPM strategy, and how novel technologies can possibly be incorporated. Pests impacting peanut production are continually adapting and evolving, thus the tools used to manage them must also have this capability. The future of pest management lies with finding ways to incorporate novel information into established IPM programs and adapting them for future changes in pest populations.

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Economic Analysis of the Corn Intercropped With Marandu Grass as a Function of Azospirillum brasilense Application

Journal of Agricultural Science ◽

10.5539/jas.v11n3p387 ◽

2019 ◽

Vol 11 (3) ◽

pp. 387 ◽

Cited By ~ 1

Author(s):

Viviane C. Modesto ◽

Marcelo Andreotti ◽

Omar J. Sabbag ◽

Deyvison de A. Soares ◽

Eduardo A. P. Pechoto ◽

...

Keyword(s):

Agricultural Production ◽

Azospirillum Brasilense ◽

Production Systems ◽

Production Costs ◽

Corn Production ◽

Corn Crop ◽

Sequential Experiments ◽

Tillage System ◽

Urochloa Brizantha ◽

Agricultural Production Systems

The Integrated Agricultural Production Systems (IAPS) under No-Tillage System (NTS), add values to grain production and to livestock activity over the year, besides providing reestablishment of degraded areas. The objective of this work was to evaluate the production costs and profitability of the irrigated corn crop, intercropped or not with Urochloa brizantha cv. Marandu, inoculated or not with Azospirillum brasilense, in the lowland Cerrado. The work was composed of two sequential experiments, conducted in Selvíria-MS, from 2015 to 2016. The experimental design of the two experiments was in randomized blocks with four replicates. The first experiment consisted of six treatments: (a) inoculate crop in single crop, (b) single corn crop without inoculation, (c) intercropping without inoculation, (d) intercropping with inoculation in both seeds, (e) intercropping with inoculation of corn seeds, and (f) intercropping with inoculation of grass seeds. In the corn off-season harvest, for the second experiment, the experimental units with grass were subdivided into three treatments: (a) leaf inoculated grass (250 mL of inoculant), (b) grass broadcast fertilized with urea (200 kg of N ha-1 year-1) in broadcast and (c) grass without fertilization or inoculation. The inputs were the most expensive components in corn production. In the intercropping treatments, where the grass was destined for silage, the profitability indexes were positive, enabling the system regardless of Azospirillum brasilense inoculation.

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Prospects for the development of agrarian production systems in in the Right Bank Polesie of Ukraine

Interdepartmental thematic scientific collection "Agriculture" ◽

10.31073/zem.95.69-72 ◽

2018 ◽

Vol 2 (95) ◽

pp. 69-72

Author(s):

Yu.A. Tarariko ◽

L.V. Datsko ◽

M.O. Datsko

Keyword(s):

Agricultural Production ◽

Production Systems ◽

Economic Feasibility ◽

Capital Investments ◽

Resource Potential ◽

Grain Processing ◽

Processing And Storage ◽

The Right ◽

And Storage ◽

Agricultural Production Systems

The aim of the work is to assess the existing and prospective models for the development of agricultural production in Central Polesie on the basis of economic feasibility and ecological balance. The evaluation of promising agricultural production systems was carried out with the help of simulation modeling of various infrastructure options at the levels of crop and multisectoral specialization of agroecosystems. The agro-resource potential of Central Polesie is better implemented in the rotation with lupine, corn and flax dolguntsem with well-developed infrastructure, including crop, livestock units, grain processing and storage systems, feed, finished products and waste processing in the bioenergetic station. The expected income for the formation of such an infrastructure is almost 8 thousand dollars. / with a payback period of capital investments of 2-3 years.

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Strategic deployment of riparian buffers and windbreaks in Europe can co-deliver biomass and environmental benefits

Communications Earth & Environment ◽

10.1038/s43247-021-00247-y ◽

2021 ◽

Vol 2 (1) ◽

Author(s):

Oskar Englund ◽

Pål Börjesson ◽

Blas Mola-Yudego ◽

Göran Berndes ◽

Ioannis Dimitriou ◽

...

Keyword(s):

Agricultural Production ◽

Large Scale ◽

Production Systems ◽

Riparian Buffers ◽

Environmental Benefits ◽

The European Union ◽

Negative Effects ◽

Nitrogen Emissions ◽

Environmental Objectives ◽

Eu Policies

AbstractWithin the scope of the new Common Agricultural Policy of the European Union, in coherence with other EU policies, new incentives are developed for farmers to deploy practices that are beneficial for climate, water, soil, air, and biodiversity. Such practices include establishment of multifunctional biomass production systems, designed to reduce environmental impacts while providing biomass for food, feed, bioenergy, and other biobased products. Here, we model three scenarios of large-scale deployment for two such systems, riparian buffers and windbreaks, across over 81,000 landscapes in Europe, and quantify the corresponding areas, biomass output, and environmental benefits. The results show that these systems can effectively reduce nitrogen emissions to water and soil loss by wind erosion, while simultaneously providing substantial environmental co-benefits, having limited negative effects on current agricultural production. This kind of beneficial land-use change using strategic perennialization is important for meeting environmental objectives while advancing towards a sustainable bioeconomy.

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