23,875 research outputs found
NAFTA and its Impact on Mexico
The principal objective of a free trade agreement between two or more countries is to increase efficiency. As the well-known Heckscher-Ohlin (1933) theorem suggests, by going from autarky to free trade, the countries involved will tend to specialize in the production of those goods and services that each country has a comparative advantage in, and this will lead to increased efficiency and welfare. This paper analyzes how the North American Free Trade Agreement (NAFTA) between the United States, Canada and Mexico has created efficiency and welfare in Mexico, as it has been argued that NAFTA has been both advantageous as well as disadvantageous for Mexico. In sum, this paper investigates which particular sectors of Mexico’s economy benefitted from and were injured by NAFTA, while taking into account macroeconomic indicators such as GDP growth, Foreign Direct Investment (FDI) flows, volume of trade, wage inequalities and education, as most studies have found the net economic effects of NAFTA on Mexico to be ambiguous
Derived sections of Grothendieck fibrations and the problems of homotopical algebra
The description of algebraic structure of n-fold loop spaces can be done
either using the formalism of topological operads, or using variations of
Segal's -spaces. The formalism of topological operads generalises well
to different categories yielding such notions as -algebras in
chain complexes, while the -space approach faces difficulties.
In this paper we discuss how, by attempting to extend the Segal approach to
arbitrary categoires, one arrives to the problem of understanding "weak"
sections of a homotopical Grothendieck fibration. We propose a model for such
sections, called derived sections, and study the behaviour of homotopical
categories of derived sections under the base change functors. The technology
developed for the base-change situation is then applied to a specific class of
"resolution" base functors, which are inspired by cellular decompositions of
classifying spaces. For resolutions, we prove that the inverse image functor on
derived sections is homotopically full and faithful.Comment: 50 pages, improved in line with referee remark
The limits of French intervention in Africa: a study in applied neo-colonialism
African Studies Center Working Paper No. 54INTRODUCTION:
The scope of this paper is both wider and narrower than might be suggested
by its title. It does not propose to offer a full analysis of French neocolonialism,
but neither will it be limited to a mere inventory of overt
French military actions of the type recently performed in Chad, Shaba or the
Central African Republic. Part of the ambiguity that the title of the paper
may occasion lies in the use of the term "intervention," which will be used to
designate a wide-ranging sequence of policy actions leading, whether deliberately
or not, to the crystallization of France's current posture in Africa.*
In its broadest sense, "intervention" can, and probably should, include
every form of concerted action (whether direct or indirect, overt or covert)
by one international actor on another for the purpose of altering, in a manner
favorable to the intervenor, the normal processes of operation in the targeted
society. In this perspective, it would be legitimate to claim that intervention,
or intrusion, by France or by other external powers in the affairs of
Africa begins almost from the moment when they first established contact with
African societies. The setting up of the slave trade itself was not intrinsically
perceived as interventionist, inasmuch as slaves were at that time
regarded by both sides as a legitimate trade commodity, but the supply of
firearms to native intermediaries who were expected to use their newlyacquired
technological superiority to pillage the hinterland in the forcible
procurement of slaves, or the exploitation of rivalries between indigenous
trading states were all forms of "intervention." Similarly, the imposition of
direct colonial rule and the attendant (and forcible) introduction of new
modes of production in African societies were clearly interventionist, as was
the later development of a colonial apparatus, with its mobilizational and
surplus-extracting effects.[TRUNCATED
Carbon dynamics in apple orchards in New Zealand and their integration into life cycle assessment : a thesis presented in partial fulfillment of the requirements for the degree of Doctor of Philosophy (Ph.D) in Soil Sciences and Life Cycle Management
Soil carbon sequestration can help mitigate climate change and soil carbon contributes to many of
the ecosystem services provided by the soil; thus soil carbon contributes to the sustainability of food
production systems. However, changes in soil carbon are difficult and costly to measure due to two
constraining characteristics: the spatial variability of the stocks as well as the typically small changes
in carbon stocks over time. Consequently, environmental assessment tools such as Life Cycle
Assessment (LCA) and carbon footprinting (CF) generally exclude the changes in soil carbon stocks
from their analyses. Yet global supermarket chains use the results from these tools to inform
consumers about greener products.
In New Zealand (NZ), production of horticultural products such as apples is very focussed on export
markets. Therefore, if it can be demonstrated that the production of New Zealand apples maintains
or increases the carbon stock of the orchard soil and above-ground biomass, this could lead to a
reduced net CF and might enhance access to prime retailers’ shelves in major export markets.
The main aims of this research were (a) to develop a practical method for measuring a statistically
significant and powerful change in the soil-carbon stock of an apple orchard block in New Zealand,
and (b) to assess a method to estimate the standing woody biomass carbon stock in apple orchards,
in order to provide reliable data for the CF of NZ apples. Since there are no data available, this
research sought to quantify the changes in soil-carbon stocks in apple orchards by means of a
chrono-sequence.
A review of LCA and CF case studies accounting for changes in soil-carbon identified the need to
focus on collecting deep, site specific, geo-localised and time-dependent soil-carbon data, as well as
communicating its variability and statistical uncertainty for interpretation and transparency of LCA
and CF results. Therefore, in a first step to develop a protocol for quantifying the carbon stocks in
the soil, a four-year-old apple orchard block was intensively sampled to one meter depth to measure
the soil-carbon stock and the spatial patterns. It was found that the soil-carbon stock was influenced
by tree planting pattern, and the minimum sampling requirements were determined to detect, from
sampling every 20 years, a change of the mean (175.1± 10.8 t C/ha) of 10 % due to the spatial and
temporal characteristics of soil carbon. This required sampling nine sites in a systematic grid in the
orchard block, with four pooled samples per site evenly distributed between and outside the wheel
tracks, at a total cost of NZ182/tonne.
To inform development of a protocol for quantifying the carbon stocks in the woody biomass in a
commercial apple orchard block, the relationship between the trunk cross-sectional area (TCA) and
the woody dry mass (DM) of the trees was assessed using 10 trees that were destructively
harvested. It was found that using this relationship together with a high number of TCAs measured
in situ in the orchard block facilitated the rapid and cost effective estimation of the woody biomass
carbon stocks at the orchard block scale. At the end of the orchard life, the carbon has been stored
out of the atmosphere for the lifetime of the trees and this contributes to reduced climate change.
Furthermore, at the end of life the trees may be burned for convenience, chopped for firewood or
transformed into biochar and applied to soils. It was found that the biochar scenario provided the
largest reduction, and that this benefit was equivalent to 0.7% of the carbon footprint of apples
exported to Europe. The choice of a time horizon for the assessment was found to be critical, with
comparative results varying up to three fold between the 20 year and the 100 year time horizons.
Regarding changes in soil carbon stocks over time, the four-year-old orchard block was part of a 12
year-old chronosequence, also including a one-year, a six-year and a twelve-year old block. The same
sampling protocol was carried out in these three other blocks. It was found that all orchard blocks
had relatively high soil-carbon stocks. Moreover, there was no significant difference in soil-carbon
stocks at the 5% level between the one-year-old, the six-year-old and the twelve-year-old blocks of
the chronosequence. Based on the soil-carbon stocks of these three blocks, current management
practices seem to be maintaining these carbon stocks over time. Therefore, unless management
practices are modified, monitoring may not be required. However, this maintenance of relatively
high soil-carbon stocks in orchard systems is beneficial for climate change and the ecosystem
services provided by the soil. It should therefore be treated as such in LCA and CF studies although a
method is yet to be developed.
In addition, despite a high similarity with the other blocks, the four-year-old block showed a higher,
significantly different soil-carbon stock, and the levels of variability in soil-carbon stocks were found
to be different between all the blocks. This demonstrates the high local specificity of soil-carbon
stocks. The six year-old block displayed a coefficient of variation (14%) larger than the other blocks,
and so an analysis of sampling requirements was conducted for this block. A change of 10% of the
mean could, in theory, be observed by collecting a total of 78 samples, bulked two by two, for
carbon content, and using 39 bulk density profiles, all to one meter depth. The associated cost of
monitoring is NZ$ 9,420 and is equivalent to 1% of the value of export apples at ship-side in New
Zealand. Monitoring soil-carbon stocks would seem therefore affordable, even in the more variable
orchard block.
Overall, this research has made four main contributions to the science. Firstly, a robust, practical and
adaptable protocol for monitoring soil-carbon stocks in apple orchards has been developed.
Secondly, a rapid and cost effective method to estimate the carbon stock in standing woody biomass
has been verified for use in commercial apple orchard blocks; accounting for this biomass carbon
stock may lead to a net reduction of up to 4.6% of the New Zealand based (cradle to NZ port) CF of
apples exported to Europe; Thirdly, a chrono-sequence of orchard blocks has suggested that current
management practices in apple orchards appear to achieve the maintenance of high soil-carbon
stocks over time, and it is suggested that this maintenance should be recognised as beneficial in CF
and LCA studies. Finally, soil carbon stocks have been found to be spatially variable within and
between similar orchard blocks; therefore LCA and CF studies should use site specific data and
communicate the uncertainty of their soil-carbon stock estimates
Strong and weak order in averaging for SPDEs
We show an averaging result for a system of stochastic evolution equations of
parabolic type with slow and fast time scales. We derive explicit bounds for
the approximation error with respect to the small parameter defining the fast
time scale. We prove that the slow component of the solution of the system
converges towards the solution of the averaged equation with an order of
convergence is 1/2 in a strong sense - approximation of trajectories - and 1 in
a weak sense - approximation of laws. These orders turn out to be the same as
for the SDE case
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