D. D. H. López scite author profile

D. D. H. López

2Publications

12Citation Statements Received

27Citation Statements Given

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Carbon Footprint Assessment of Sweet Cherry Production: Hotspots and Improvement Options

Bravo¹,

López²,

Vásquez³

et al. 2017

Pol. J. Environ. Stud.

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The carbon footprint (CF) evaluates the overall amount of greenhouse gas emissions and removals associated with a product or activity across its life cycle. Today, the CF assessment has the potential to be a key measurement for increasing sustainable agricultural production. In addition, the export-oriented fruit sector has been challenged to quantify and reduce their CF. Worldwide there are scant peer-review studies that examine the CF of stone fruits (Prunus genus). The scarcity is most evident in sweet cherries, which is the third most exported stone fruit in the world in terms of value (after almonds and peaches). Chile is the largest southern hemisphere producer and exporter of sweet cherry fruit. Within this context, the present study is one of the first assessments of the CF of conventional sweet cherry production. This work considers Chilean agricultural practices and identifies key influencing factors (hotspots). It takes into account the following agricultural inputs: mineral fertilizers, pesticides, diesel consumption for agricultural operations, machinery, and electricity for irrigation. The results indicate that the average CF of the Chilean sweet cherry production is 0.41 kg CO 2 -eq/kg of harvested fruit, with a 95% confidence interval between 0.36 and 0.47 kg CO 2 -eq/kg. This value is higher than those for other stone fruits reported by the literature. Diesel and fertilizers are the most important contributors to the CF of sweet cherry cultivation. Improvement scenarios are evaluated for the hotspots in order to reduce greenhouse gas emissions from the production of this fruit. This study provides quantitative environmental criteria associated with global warming concerns to the stakeholders in the fruit sector and to the agricultural policymakers.

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Energy and the environment

Inal¹,

Gerity²,

López³

2006

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Energy is one of the major ingredients required for human sustenance and comfort. Yet, energy has an environmental impact at every stage of its acquisition as well as its use. We produce significant environmental waste and impact extracting energy, transporting the extracted material(s), and in processing it to render it useable. The global warming gases generated and the associated effects represent only a small sample of the serious by-products of our energy use, and only a fraction of the devastation that we presently bestow on our planet.Presently, we are all aware that the price of one barrel of crude oil has exceeded the $75.00 level for the first time in history, and the negative impact on our individual economics as well as that affecting the industrialized world is such that every segment of our quality of life and living standard is threatened. These increased costs do not produce any direct benefit to the planet, but only contribute to the total global decline of living conditions and standards. The actual monetary benefit is only enjoyed by a very few as well.Currently, the only fuel source alternative which seems to be considered politically acceptable involves the conversion of biomass (such as maize, sugar cane, other vegetable sources or use[s]) into bio-fuels to partially replace the shrinking supply of traditional sources of hydrocarbons. However, there is a finite and limited amount of arable land that can efficiently produce and successfully harvest biomass. All human needs for food and fiber must compete for access to this land area with any proposed use for energy production. The competition among food, fiber and fuel is already very stressed, and the use of bio-mass is not a viable, long-term solution to the problem. This paper identifies fuel sources, the quantities currently available, and projections for the future. The areas of solar, wind, hydrogen, and renewed interest in nuclear power are all considered. It is our effort to put these alternative options into a more realistic light.

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D. D. H. López

Carbon Footprint Assessment of Sweet Cherry Production: Hotspots and Improvement Options

Energy and the environment

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