Colleen Strawhacker scite author profile

This paper identifies rare climate challenges in the long-term history of seven areas, three in the subpolar North Atlantic Islands and four in the arid-to-semiarid deserts of the US Southwest. For each case, the vulnerability to food shortage before the climate challenge is quantified based on eight variables encompassing both environmental and social domains. These data are used to evaluate the relationship between the "weight" of vulnerability before a climate challenge and the nature of social change and food security following a challenge. The outcome of this work is directly applicable to debates about disaster management policy.anaging disasters, especially those that are climate-induced, calls for reducing vulnerabilities as an essential step in reducing impacts (1-8). Exposure to environmental risks is but one component of potential for disasters. Social, political, and economic processes play substantial roles in determining the scale and kind of impacts of hazards (1,(8)(9)(10)(11)(12). "Disasters triggered by natural hazards are not solely influenced by the magnitude and frequency of the hazard event (wave height, drought intensity etc.), but are also rather heavily determined by the vulnerability of the affected society and its natural environment" (ref. 1, p. 2). Thus, disaster planning and relief should address vulnerabilities, rather than returning a system to its previous condition following a disaster event (6).Using archaeologically and historically documented cultural and climate series from the North Atlantic Islands and the US Southwest, we contribute strength to the increasing emphasis on vulnerability reduction in disaster management. We ask whether there are ways to think about climate uncertainties that can help people build resilience to rare, extreme, and potentially devastating climate events. More specifically, we ask whether vulnerability to food shortfall before a climate challenge predicts the scale of impact of that challenge. Our goal is both to assess current understandings of disaster management and to aid in understanding how people can build the capability to increase food security and reduce their vulnerability to climate challenges.We present analyses of cases from substantially different regions and cultural traditions that show strong relationships between levels of vulnerability to food shortage before rare climate events and the impact of those events. The patterns and details of the different contexts support the view that vulnerability cannot be ignored. These cases offer a long-term view rarely included in studies of disaster management or human and cultural well-being (for exceptions, see refs. 13 and 14). This long time frame allows us to witness changes in the context of vulnerabilities and climate challenges, responding to a call for more attention to "how human security changes through time,

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The Influence of Diverse Values, Ecological Structure, and Geographic Context on Residents’ Multifaceted Landscaping Decisions

Larson

Cook

Strawhacker

et al. 2010

Hum Ecol

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Previous research has examined the influence of values on human-ecological decisions, yet disparate approaches render inferences across studies difficult. In this paper, we present a robust conceptualization of values, encompassing general life values, broad-based environmental orientations, and specific yard priorities, while comparatively examining how these influence residents' land-management practices. Coupling a social survey with observational field data in Phoenix, Arizona, we address how 1) diverse values affect residents' multifaceted landscaping practices, 2) yard structure impacts water and chemical applications, and 3) land management varies across distinctive geographic contexts. Overall, values were not strongly related to land management decisions. Of those that were significant, most were related to groundcover and herbicide use. Yet diverse environmental values influenced landscaping practices in varying and complex ways. In addition, the historic and socioeconomic setting of neighborhoods affect the extent of lawns and related management inputs, while heightened use of pesticides in rock-based, drought-tolerant yards challenges the notion of these lawn alternatives as an environmentally friendly and low maintenance choice.

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Hohokam Canal Irrigation and the Formation of Irragric Anthrosols in the Middle Gila River Valley, Arizona, USA

Woodson

Sandor²,

Strawhacker

et al. 2015

Geoarchaeology

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Irragric anthrosols form as a result of prolonged deposition of fine sediments from irrigation water. Ancient irragric soils centuries to millennia old occur in several world regions, especially in arid environments of Asia and the Americas. This article presents evidence for an ancient irragric anthrosol in the North American Southwest, along the Snaketown Canal System in the Middle Gila River Valley, Arizona. This pedostratigraphic unit was formed as a result of a millennium of irrigation by Hohokam farmers from A.D. 450 to 1450. The irragric soil consists of a mantle of silty‐to‐loamy textures with minimal soil formation overlying a natural argillic horizon on a Pleistocene stream terrace. A soil mapped independently by the United States Department of Agriculture‐Natural Resources Conservation Service with these horizons corresponds closely with the canal system. Soil within the canal system tends to be lower in salt, sodium, and pH compared with external soils. This suggests that the irragric process improved soil for crop production through long‐term leaching and additions of fresh sediments with the irrigation water. This anthropogenic process of canal sedimentation has had a long‐lasting impact on the sedimentary record and soils in this arid environment.

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Qualitative data sharing and synthesis for sustainability science

et al. 2019

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Legacies of Prehistoric Agricultural Practices Within Plant and Soil Properties Across an Arid Ecosystem

et al. 2013

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