Nicole E. Tichenor scite author profile

Improving diet quality while simultaneously reducing environmental impact is a critical focus globally. Metrics linking diet quality and sustainability have typically focused on a limited suite of indicators, and have not included food waste. To address this important research gap, we examine the relationship between food waste, diet quality, nutrient waste, and multiple measures of sustainability: use of cropland, irrigation water, pesticides, and fertilizers. Data on food intake, food waste, and application rates of agricultural amendments were collected from diverse US government sources. Diet quality was assessed using the Healthy Eating Index-2015. A biophysical simulation model was used to estimate the amount of cropland associated with wasted food. This analysis finds that US consumers wasted 422g of food per person daily, with 30 million acres of cropland used to produce this food every year. This accounts for 30% of daily calories available for consumption, one-quarter of daily food (by weight) available for consumption, and 7% of annual cropland acreage. Higher quality diets were associated with greater amounts of food waste and greater amounts of wasted irrigation water and pesticides, but less cropland waste. This is largely due to fruits and vegetables, which are health-promoting and require small amounts of cropland, but require substantial amounts of agricultural inputs. These results suggest that simultaneous efforts to improve diet quality and reduce food waste are necessary. Increasing consumers’ knowledge about how to prepare and store fruits and vegetables will be one of the practical solutions to reducing food waste.

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Inter- and independent effects of region and race/ethnicity on variety of fruit and vegetable consumption in the USA: 2011 Behavioral Risk Factor Surveillance System (BRFSS)

Tichenor

Conrad

2015

Public Health Nutr.

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Objective: (i) To estimate the independent and combined effects of race/ethnicity and region on the variety of fruits and vegetables consumed in the USA in 2011; and (ii) to assess whether and to what extent race/ethnicity and region may synergistically influence variety of fruit and vegetable consumption. Design: Cross-sectional analysis. Multivariate logistic regression predicted the likelihood of meeting fruit and vegetable variety indicators independently and in combination for each race/ethnicity and region. Interaction effects models were used to test for interaction effects between race/ethnicity and region on fruit and vegetable variety.

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Life cycle environmental consequences of grass-fed and dairy beef production systems in the Northeastern United States

Tichenor

Peters

Norris

et al. 2017

Journal of Cleaner Production

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Using a Market Basket to Explore Regional Food Systems

Clancy¹,

Bonanno

Canning

et al. 2017

J. Agric. Food Syst. Community Dev.

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The market basket chosen for the Enhancing Food Security in the Northeast (EFSNE) project was one of its major tools, as its contents served as the subject of a variety of analyses across the research teams. The interdisciplinary systems project studied multiple components of food systems in the Northeast region. One of the team members' first collaborative exercises was the choice of the eight items representing the major food groups, including different processed forms of food and healthier versions of several. This article summarizes the information gathered on the market basket items, a * Corresponding author: Kate Clancy, Food systems consultant;

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Baselines, Trajectories, and Scenarios: Exploring Agricultural Production in the Northeast U.S.

Griffin

Peters

Fleisher

et al. 2018

J. Agric. Food Syst. Community Dev.

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Land use efficiency of beef systems in the Northeastern USA from a food supply perspective

Tichenor

Zanten

Boer

et al. 2017

Agricultural Systems

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Regional self-reliance for livestock feed, meat, dairy and eggs in the Northeast USA

Conrad

Tichenor

Peters

et al. 2016

Renew. Agric. Food Syst.

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The production of livestock feed in the USA is geographically concentrated, which poses several risks. Extreme weather events and disease outbreaks have the potential to disrupt production in these areas, which could reduce the national output of meat, dairy and eggs. Additionally, geographically concentrated livestock and feed production systems have been observed to contribute excessive nutrient loads to surrounding soil and water bodies, thereby threatening environmental sustainability. Geographic relocation of production systems has been proposed as an adaptation strategy to increase system resilience and this could take the shape of more geographically dispersed livestock feed production. We estimate the degree to which the demand for meat, dairy and eggs in the Northeast region is met with current levels of regional feed and livestock production, a term that we refer to as regional self-reliance. We combine mean annual (2001–2010) data on Northeast regional land use; crop output; meat, dairy and egg output; and food consumption with a livestock feed requirements model. An annual mean of over 6.1 million ha of land in the Northeast was dedicated to livestock feed from 2001 to 2010, with nearly 80% located in just three states (Pennsylvania, New York and West Virginia). The region is a net importer of livestock feed (in terms of total digestible nutrients and crude protein), as well as meat, dairy and eggs (in terms of total human-edible energy and protein). This is the result of a confluence of long-term regional trends that include the movement of agricultural production out of the region with a concomitant increase in the regional population and an increase in the national demand for meat, dairy and eggs. Limited slaughter output in the region is a key limiting factor to increasing the region's self-reliance for livestock products.

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Informing a sustainable food future

Tichenor

Leach

2017

Environ. Res. Lett.

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