43 results
Paramarkeyite, a new calcium–uranyl–carbonate mineral from the Markey mine, San Juan County, Utah, USA
- Anthony R. Kampf, Travis A. Olds, Jakub Plášil, Peter C. Burns, Radek Škoda, Joe Marty
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- Mineralogical Magazine / Volume 86 / Issue 1 / February 2022
- Published online by Cambridge University Press:
- 13 December 2021, pp. 27-36
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The new mineral paramarkeyite (IMA2021-024), Ca2(UO2)(CO3)3⋅5H2O, was found in the Markey mine, San Juan County, Utah, USA, where it occurs as a secondary phase on gypsum-coated asphaltum in association with andersonite, calcite, gypsum and natromarkeyite. Paramarkeyite crystals are transparent, pale green-yellow, striated tablets, up to 0.11 mm across. The mineral has white streak and vitreous lustre. It exhibits moderate bluish-white fluorescence (405 nm laser). It is very brittle with irregular, curved fracture and a Mohs hardness of 2½. It has an excellent {100} cleavage and probably two good cleavages on {010} and {001}. The measured density is 2.91(2) g cm–3. Optically, the mineral is biaxial (–) with α = 1.550(2), β = 1.556(2), γ = 1.558(2) (white light); 2V = 60(2)°; strong r > v dispersion; orientation: Y = b; nonpleochroic. The Raman spectrum exhibits bands consistent with UO22+, CO32– and O–H. Electron microprobe analysis provided the empirical formula (Ca1.83Na0.20Sr0.03)Σ2.05(UO2)(CO3)3⋅5H2O (+0.07 H). Paramarkeyite is monoclinic, P21/n, a = 17.9507(7), b = 18.1030(8), c = 18.3688(13) Å, β = 108.029(8)°, V = 5676.1(6) Å3 and Z = 16. The structure of paramarkeyite (R1 = 0.0647 for 6657 I > 2σI) contains uranyl tricarbonate clusters that are linked by Ca–O polyhedra to form heteropolyhedral layers. The structure of paramarkeyite is very similar to those of markeyite, natromarkeyite and pseudomarkeyite.
Jeankempite, Ca5(AsO4)2(AsO3OH)2(H2O)7, a new arsenate mineral from the Mohawk Mine, Keweenaw County, Michigan, USA
- Travis A. Olds, Anthony R. Kampf, Fabrice Dal Bo, Peter C. Burns, Xiaofeng Guo, John S. McCloy
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- Mineralogical Magazine / Volume 84 / Issue 6 / December 2020
- Published online by Cambridge University Press:
- 25 November 2020, pp. 959-969
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Jeankempite, Ca5(AsO4)2(AsO3OH)2(H2O)7, is a new mineral species (IMA2018-090) discovered amongst coatings of arsenate minerals on oxidised copper arsenides from the Mohawk No. 2 mine, Mohawk, Keweenaw County, Michigan, USA. The new mineral occurs as lamellar bundles of colourless to white plates up to 1 mm wide and is visually indistinguishable from guérinite, with which it forms intergrowths. Jeankempite is transparent to translucent with a waxy lustre and white streak, is non-fluorescent under longwave and shortwave ultraviolet illumination, has a Mohs hardness of ~1.5 and brittle tenacity with uneven fracture. Crystals are flattened on {01$\bar{1}$} and exhibit perfect cleavage on {01$\bar{1}$}. Optically, jeankempite is biaxial (+), α = 1.601(2), β = 1.607(2), γ = 1.619(2) (white light); 2Vmeas. = 72(2)° and 2Vcalc. = 71.0°. The empirical formula is (Ca4.97Na0.013Mg0.017)(As3.99S0.01)4O23H16, based on 23 O and 16 H atoms per formula unit. Thermogravimetric analysis indicates that jeankempite undergoes four weight losses totalling 16.82%, close to the expected loss of 16.30%, corresponding to eight H2O. Jeankempite is triclinic, P$\bar{1}$, a = 6.710(6), b = 14.901(14), c = 15.940(15) Å, α = 73.583(12)°, β = 81.984(12)°, γ = 82.754(12)°, V = 1507(2) Å3 and Z = 3. The final structure was refined to R1 = 0.0591 for 2781 reflections with Iobs > 3σI. The crystal structure of jeankempite is built from a network of edge- and vertex-sharing CaO6, CaO7 and AsO4 polyhedra, and we hypothesise that the new mineral has formed due to a topotactic reaction brought on by dehydration of preexisting guérinite.
Natromarkeyite and pseudomarkeyite, two new calcium uranyl carbonate minerals from the Markey mine, San Juan County, Utah, USA
- Anthony R. Kampf, Travis A. Olds, Jakub Plášil, Peter C. Burns, Joe Marty
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- Mineralogical Magazine / Volume 84 / Issue 5 / October 2020
- Published online by Cambridge University Press:
- 27 July 2020, pp. 753-765
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The new minerals natromarkeyite, Na2Ca8(UO2)4(CO3)13(H2O)24⋅3H2O (IMA2018-152) and pseudomarkeyite, Ca8(UO2)4(CO3)12(H2O)18⋅3H2O (IMA2018-114) were found in the Markey mine, San Juan County, Utah, USA, where they occur as secondary phases on asphaltum. Natromarkeyite properties are: untwinned blades and tablets to 0.2 mm, pale yellow green colour; transparent; white streak; bright bluish white fluorescence (405 nm laser); vitreous to pearly lustre; brittle; Mohs hardness 1½ to 2; irregular fracture; three cleavages ({001} perfect, {100} and {010} good); density = 2.70(2) g cm–3; biaxial (–) with α = 1.528(2), β = 1.532(2) and γ = 1.533(2); and pleochroism is X = pale green yellow, Y ≈ Z = light green yellow. Pseudomarkeyite properties are: twinned tapering blades and tablets to 1 mm; pale green yellow colour; transparent; white streak; bright bluish white fluorescence (405 nm laser); vitreous to pearly lustre; brittle; Mohs hardness ≈ 1; stepped fracture; three cleavages ({10$\bar{1}$} very easy, {010} good, {100} fair); density = 2.88(2) g cm–3; biaxial (–) with α = 1.549(2), β = 1.553(2) and γ = 1.557(2); and it is nonpleochroic. The Raman spectra of markeyite, natromarkeyite and pseudomarkeyite are very similar and exhibit bands consistent with UO22+, CO32– and O–H. Electron microprobe analyses provided the empirical formula Na2.01Ca7.97Mg0.03Cu2+0.05(UO2)4(CO3)13(H2O)24⋅3H2O (–0.11 H) for natromarkeyite and Ca7.95(UO2)4(CO3)12(H2O)18⋅3H2O (+0.10 H) for pseudomarkeyite. Natromarkeyite is orthorhombic, Pmmn, a = 17.8820(13), b = 18.3030(4), c = 10.2249(3) Å, V = 3336.6(3) Å3 and Z = 2. Pseudomarkeyite is monoclinic, P21/m, a = 17.531(3), b = 18.555(3), c = 9.130(3) Å, β = 103.95(3)°, V = 2882.3(13) Å3 and Z = 2. The structures of natromarkeyite (R1 = 0.0202 for 2898 I > 2σI) and pseudomarkeyite (R1 = 0.0787 for 2106 I > 2σI) contain uranyl tricarbonate clusters that are linked by (Ca/Na)–O polyhedra forming thick corrugated heteropolyhedral layers. Natromarkeyite is isostructural with markeyite; pseudomarkeyite has a very similar structure.
Evaluation of dicamba retention in spray tanks and its impact on flue-cured tobacco
- Matthew D. Inman, Matthew C. Vann, Loren R. Fisher, Travis W. Gannon, David L. Jordan, Katie M. Jennings
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- Weed Technology / Volume 35 / Issue 1 / February 2021
- Published online by Cambridge University Press:
- 09 July 2020, pp. 35-42
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In recent years, there has been increased use of dicamba due to the introduction of dicamba-resistant cotton and soybean in the United States. Therefore, there is a potential increase in off-target movement of dicamba and injury to sensitive crops. Flue-cured tobacco is extremely sensitive to auxin herbicides, particularly dicamba. In addition to yield loss, residue from drift or equipment contamination can have severe repercussions for the marketability of the crop. Studies were conducted in 2016, 2017, and 2018 in North Carolina to evaluate spray-tank cleanout efficiency of dicamba using various cleaning procedures. No difference in dicamba recovery was observed regardless of dicamba formulation and cleaning agent. Dicamba residue decreased with the number of rinses. There was no difference in dicamba residue recovered from the third rinse compared with residue from the tank after being refilled for subsequent tank use. Recovery ranged from 2% to 19% of the original concentration rate among the three rinses. Field studies were also conducted in 2018 to evaluate flue-cured tobacco response to reduced rates of dicamba ranging, from 1/5 to 1/10,000 of a labeled rate. Injury and yield reductions varied by environment and application timing. When exposed to 1/500 of a labeled rate at 7 and 11 wk after transplanting, tobacco injury ranged from 39% to 53% and 10% to 16% 24 days after application, respectively. The maximum yield reduction was 62%, with a 55% reduction in value when exposed to 112 g ha−1 of dicamba. Correlations showed significant relationships between crop injury assessment and yield and value reductions, with Pearson values ranging from 0.24 to 0.63. These data can provide guidance to growers and stakeholders and emphasize the need for diligent stewardship when using dicamba technology.
The Hennepin Ketamine Study Investigators’ Reply
- Jeffrey D. Ho, Jon B. Cole, Lauren R. Klein, Travis D. Olives, Brian E. Driver, Johanna C. Moore, Paul C. Nystrom, Annie M. Arens, Nicholas S. Simpson, John L. Hick, Ross A. Chavez, Wendy L. Lynch, James R. Miner
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- Prehospital and Disaster Medicine / Volume 34 / Issue 2 / April 2019
- Published online by Cambridge University Press:
- 03 May 2019, pp. 111-113
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- April 2019
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We read with interest the recent editorial, “The Hennepin Ketamine Study,” by Dr. Samuel Stratton commenting on the research ethics, methodology, and the current public controversy surrounding this study.1 As researchers and investigators of this study, we strongly agree that prospective clinical research in the prehospital environment is necessary to advance the science of Emergency Medical Services (EMS) and emergency medicine. We also agree that accomplishing this is challenging as the prehospital environment often encounters patient populations who cannot provide meaningful informed consent due to their emergent conditions. To ensure that fellow emergency medicine researchers understand the facts of our work so they may plan future studies, and to address some of the questions and concerns in Dr. Stratton’s editorial, the lay press, and in social media,2 we would like to call attention to some inaccuracies in Dr. Stratton’s editorial, and to the lay media stories on which it appears to be based.
Ho JD, Cole JB, Klein LR, Olives TD, Driver BE, Moore JC, Nystrom PC, Arens AM, Simpson NS, Hick JL, Chavez RA, Lynch WL, Miner JR. The Hennepin Ketamine Study investigators’ reply. Prehosp Disaster Med. 2019;34(2):111–113
Redcanyonite, (NH4)2Mn[(UO2)4O4(SO4)2](H2O)4, a new zippeite-group mineral from the Blue Lizard mine, San Juan County, Utah, USA
- Travis A. Olds, Jakub Plášil, Anthony R. Kampf, Peter C. Burns, Barbara P. Nash, Joe Marty, Timothy P. Rose, Shawn M. Carlson
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- Mineralogical Magazine / Volume 82 / Issue 6 / December 2018
- Published online by Cambridge University Press:
- 15 May 2018, pp. 1261-1275
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Redcanyonite (IMA2016-082), (NH4)2Mn[(UO2)4O4(SO4)2](H2O)4, occurs underground in the Blue Lizard mine, Red Canyon, White Canyon district, San Juan County, Utah, USA. It occurs with natrozippeite, brochantite, devilline, posnjakite, johannite, gypsum, bobcookite, pickeringite, pentahydrite and the NH4-analogue of zippeite: ammoniozippeite. Redcanyonite occurs as radial aggregates of red–orange needles and blades individually reaching up to 0.2 mm long, with aggregates measuring up to 1 mm in diameter. Crystals are flattened on {010} and elongated along [100], exhibit perfect cleavage on {010}, and exhibit the forms {010}, {001}, {101} and {10$\bar{1}$}. Twinning is ubiquitous, by 180° rotation on [100]. Redcanyonite is translucent with a pale orange streak, is non-fluorescent, has a Mohs hardness of 2, and has brittle tenacity with uneven fracture. Optically, redcanyonite is biaxial (+), α = 1.725(3), β = 1.755(3), γ = 1.850(5) (white light); 2V (meas.) = 60(2)°, 2V (calc.) = 61.3°; and dispersion is r < v, very strong. Pleochroism is: X = orange, Y = yellow and Z = orange; Y << X < Z. The optical orientation is X = b, Y ≈ c*, Z ≈ a. The empirical formula is (NH4)2.02(Mn0.49Cu0.09Zn0.06)Σ0.64H+0.72[(UO2)4O4(S0.99P0.01O4)2](H2O)4, based on 4 U and 24 O apfu. Redcanyonite is monoclinic, C2/m, a = 8.6572(17), b = 14.155(3), c = 8.8430(19) Å, β = 104.117(18)°, V = 1050.9(4) Å3 and Z = 2. The structure was refined to R1 = 0.0382 for 1079 reflections with Iobs > 3σI. Uranyl oxo-sulfate sheets in redcanyonite adopt the well-known zippeite topology, which consists of zigzag chains of uranyl pentagonal bipyramids linked by sulfate tetrahedra to form sheets. The sheets are linked to each other through bonds to interlayer NH4+ groups and octahedrally coordinated Mn2+, and by hydrogen bonds from H2O groups. Redcanyonite is named for Red Canyon in southeast Utah, USA.
Leószilárdite, the first Na,Mg-containing uranyl carbonate from the Markey Mine, San Juan County, Utah, USA
- Travis A. Olds, Luke R. Sadergaski, Jakub Plášil, Anthony R. Kampf, Peter C. Burns, Ian M. Steele, Joe Marty, Shawn M. Carlson, Owen P. Mills
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- Mineralogical Magazine / Volume 81 / Issue 5 / October 2017
- Published online by Cambridge University Press:
- 02 January 2018, pp. 1039-1050
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Leószilárdite (IMA2015-128), Na6Mg(UO2)2(CO3)6·6H2O, was found in the Markey Mine, Red Canyon, White Canyon District, San Juan County, Utah, USA, in areas with abundant andersonite, natrozippeite, gypsum, anhydrite, and probable hydromagnesite along with other secondary uranium minerals bayleyite, čejkaite and johannite. The new mineral occurs as aggregates of pale yellow bladed crystals flattened on ﹛001﹜ and elongated along [010], individually reaching up to 0.2 mmlong. More commonly it occurs as pale yellow pearlescent masses to 2 mm consisting of very small plates. Leószilárdite fluoresces green under both longwave and shortwave ultraviolet light, and is translucent with a white streak, hardness of 2 (Mohs), and brittle tenacity with uneven fracture. The new mineral is readily soluble in room temperature H2O. Crystals have perfect cleavage along ﹛001﹜, and exhibit the forms ﹛110﹜,﹛001﹜,﹛100﹜,﹛101﹜ and ﹛101﹜. Optically, leószilárdite is biaxial (-), α= 1.504(1), β= 1.597(1), γ= 1.628(1) (white light); 2V (meas.) = 57(1)°, 2V (calc.) = 57.1°; dispersion r > v, slight. Pleochroism: X= colourless, Y and Z= light yellow; X<Y ≈ Z The average of six wavelength dispersive spectroscopic analyses provided Na2O 14.54, MgO 3.05, UO3 47.95, CO2 22.13, H2O 9.51, total 97.18 wt.%. The empirical formula is Na5.60Mg0.90U2O28C6H12.60, based on 28 O apfu. Leószilárdite is monoclinic, C2/m, a = 11.6093(21), b = 6.7843(13), c = 15.1058(28) Å, β = 91.378(3)°, V= 1189.4(4) Å3 and Z = 2. The crystal structure (R1 = 0.0387 for 1394 reflections with Iobs > 4σI), consists of uranyl tricarbonate anion clusters [(UO2)(CO3)3]4- held together in part by irregular chains of NaO5(H2O) polyhedra sub parallel to [010]. Individual uranyl tricarbonate clusters are also linked together by three-octahedron units consisting of two Na-centred octahedra that share the opposite faces of a Mg-centred octahedron at the centre (Na–Mg–Na), and have the composition Na2MgO12(H2O)4. The name of the new mineral honours the Hungarian-American physicist, inventor and biologist Dr. Leó Szilárd (1898–1964).
Stable isotope (δD–δ18O) relationships of ice facies and glaciological structures within the mid-latitude maritime Fox Glacier, New Zealand
- John R. Appleby, Martin S. Brook, Travis W. Horton, Ian C. Fuller, Katherine A. Holt, Duncan J. Quincey
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- Journal:
- Annals of Glaciology / Volume 58 / Issue 75pt2 / July 2017
- Published online by Cambridge University Press:
- 04 July 2017, pp. 155-165
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Relationships between stable isotopes (δD–δ18O), ice facies and glacier structures have hitherto gone untested in the mid-latitude maritime glaciers of the Southern Hemisphere. Here, we present δD–δ18O values as part of a broader study of the structural glaciology of Fox Glacier, New Zealand. We analyzed 94 samples of δD–δ18O from a range of ice facies to investigate whether isotopes have potential for structural glaciological studies of a rapidly deforming glacier. The δD–δ18O measurements were aided by structural mapping and imagery from terminus time-lapse cameras. The current retreat phase was preceded by an advance of 1 km between 1984 and 2009, with the isotopic sampling and analysis undertaken at the end of that advance (2010/11). Stable isotopes from debris-bearing shear planes near the terminus, interpreted as thrust faults, are isotopically enriched compared with the surrounding ice. When plotted on co-isotopic diagrams (δD–δ18O), ice sampled from the shear planes appears to show a subtle, but distinctive isotopic signal compared with the surrounding clean ice on the lower glacier. Hence, stable isotopes (δD–δ18O) have potential within the structural glaciology field, but larger sample numbers than reported here may be required to establish isotopic contrasts between a broad range of ice facies and glacier structures.
Geomorphic and sedimentary responses of the Bull Creek Valley (Southern High Plains, USA) to Pleistocene and Holocene environmental change
- Hanna M. Arauza, Alexander R. Simms, Leland C. Bement, Brian J. Carter, Travis Conley, Ammanuel Woldergauy, William C. Johnson, Priyank Jaiswal
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- Quaternary Research / Volume 85 / Issue 1 / January 2016
- Published online by Cambridge University Press:
- 20 January 2017, pp. 118-132
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Fluvial geomorphology and stratigraphy often reflect past environmental and climate conditions. This study examines the response of Bull Creek, a small ephemeral creek in the Oklahoma panhandle, to environmental conditions through the late Pleistocene and Holocene. Fluvial terraces were mapped and their stratigraphy and sedimentology documented throughout the course of the main valley. Based on their elevations, terraces were broadly grouped into a late-Pleistocene fill terrace (T3) and two Holocene fill-cut terrace sets (T2 and T1). Terrace systems are marked by similar stratigraphies recording the general environmental conditions of the time. Sedimentary sequences preserved in terrace fills record the transition from a perennial fluvial system during the late glacial period and the Younger Dryas to a semiarid environment dominated by loess accumulation and punctuated by flood events during the middle to late Holocene. The highest rates of aeolian accumulation within the valley occurred during the early to middle Holocene. Our data provide significant new information regarding the late-Pleistocene and Holocene environmental history for this region, located between the well-studied Southern and Central High Plains of North America.
Reward-related neural activity and structure predict future substance use in dysregulated youth
- M. A. Bertocci, G. Bebko, A. Versace, S. Iyengar, L. Bonar, E. E. Forbes, J. R. C. Almeida, S. B. Perlman, C. Schirda, M. J. Travis, M. K. Gill, V. A. Diwadkar, J. L. Sunshine, S. K. Holland, R. A. Kowatch, B. Birmaher, D. A. Axelson, T. W. Frazier, L. E. Arnold, M. A. Fristad, E. A. Youngstrom, S. M. Horwitz, R. L. Findling, M. L. Phillips
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- Psychological Medicine / Volume 47 / Issue 8 / June 2017
- Published online by Cambridge University Press:
- 21 December 2016, pp. 1357-1369
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Background
Identifying youth who may engage in future substance use could facilitate early identification of substance use disorder vulnerability. We aimed to identify biomarkers that predicted future substance use in psychiatrically un-well youth.
MethodLASSO regression for variable selection was used to predict substance use 24.3 months after neuroimaging assessment in 73 behaviorally and emotionally dysregulated youth aged 13.9 (s.d. = 2.0) years, 30 female, from three clinical sites in the Longitudinal Assessment of Manic Symptoms (LAMS) study. Predictor variables included neural activity during a reward task, cortical thickness, and clinical and demographic variables.
ResultsFuture substance use was associated with higher left middle prefrontal cortex activity, lower left ventral anterior insula activity, thicker caudal anterior cingulate cortex, higher depression and lower mania scores, not using antipsychotic medication, more parental stress, older age. This combination of variables explained 60.4% of the variance in future substance use, and accurately classified 83.6%.
ConclusionsThese variables explained a large proportion of the variance, were useful classifiers of future substance use, and showed the value of combining multiple domains to provide a comprehensive understanding of substance use development. This may be a step toward identifying neural measures that can identify future substance use disorder risk, and act as targets for therapeutic interventions.
Impact of Personality on Cognitive Aging: A Prospective Cohort Study
- Richard J. Caselli, Amylou C. Dueck, Dona E.C. Locke, Bruce R. Henslin, Travis A. Johnson, Bryan K. Woodruff, Charlene Hoffman-Snyder, Yonas E. Geda
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- Journal of the International Neuropsychological Society / Volume 22 / Issue 7 / August 2016
- Published online by Cambridge University Press:
- 27 June 2016, pp. 765-776
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Objectives: The aim of this study was to assess the association between personality factors and age-related longitudinal cognitive performance, and explore interactions of stress-proneness with apolipoprotein E (APOE) ɛ4, a prevalent risk factor for Alzheimer’s disease (AD). Methods: A total of 510 neuropsychiatrically healthy residents of Maricopa County recruited through media ads (mean age 57.6±10.6 years; 70% women; mean education 15.8±2.4 years; 213 APOE ɛ4 carriers) had neuropsychological testing every 2 years (mean duration follow-up 9.1±4.4 years), and the complete Neuroticism Extraversion Openness Personality Inventory-Revised. Several tests were administered within each of the following cognitive domains: memory, executive skills, language, visuospatial skills, and general cognition. Primary effects on cognitive trajectories and APOE ɛ4 interactions were ascertained with quadratic models. Results: With personality factors treated as continuous variables, Neuroticism was associated with greater decline, and Conscientiousness associated with reduced decline consistently across tests in memory and executive domains. With personality factors trichotomized, the associations of Neuroticism and Conscientiousness were again highly consistent across tests within memory and to a lesser degree executive domains. While age-related memory decline was greater in APOE ɛ4 carriers as a group than ɛ4 noncarriers, verbal memory decline was mitigated in ɛ4 carriers with higher Conscientiousness, and visuospatial perception and memory decline was mitigated in ɛ4 carriers with higher Openness. Conclusions: Neuroticism and Conscientiousness were associated with changes in longitudinal performances on tests sensitive to memory and executive skills. APOE interactions were less consistent. Our findings are consistent with previous studies that have suggested that personality factors, particularly Neuroticism and Conscientiousness are associated with cognitive aging patterns. (JINS, 2016, 22, 765–776)
Notes
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp 159-162
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Contents
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp v-vi
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Index
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp 197-200
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6 - Reducing Crime at High-Crime Places: Practice and Evidence
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp 113-139
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Summary
The fact that crime and disorder are concentrated at a few places is interesting and deserves an explanation. It is also interesting that places show up in other criminological theories and in other disciplines. And it is useful to understand the methods for studying places. However, a primary reason we are interested in high-crime places is that it might be possible to do something about crime by addressing these places. We are convinced that focusing on places can substantially reduce crime and disorder. Our conviction is not a matter of faith, but is based on over twenty-five years of accumulating evidence.
This chapter summarizes the research evidence examining whether focusing on crime places reduces crime. We first discuss a broad range of place-based prevention strategies examined by Eck and Guerrette (2012). This review provides strong evidence for a place-based approach to crime prevention. We then turn to a specific form of place-based crime prevention – hot spots policing (Sherman and Weisburd 1995). Again, we have a strong body of evidence supporting a place-based approach. Having reviewed hot spots policing, we turn to the importance of place managers and third parties in controlling problem places. We then examine an extension of the third-party approach to argue that a place-based approach to crime may free crime control policy from the police monopoly. Then we describe how a place-based approach to crime could be incorporated in community corrections to improve probation and parole outcomes. Finally, we review the larger body of research on the potential threat of crime displacement, and its opposite, the diffusion of crime control benefits. Consistently, the evidence described in this chapter clearly shows the substantial utility of a place-based approach for reducing crime.
SITUATIONAL CRIME PREVENTION AT PLACES
In Chapter 3 we argued for the importance of social disorganization theories for understanding crime places. This is an area where basic research suggests promise (e.g., see Weisburd et al. 2012; Weisburd et al. 2014), but where there is little evidence of effectiveness of specific practices. Such evidence is beginning to be developed, but we can say little at this juncture. In contrast, the evidence regarding opportunity reduction and crime has grown systematically over the last few decades.
2 - The Concentration of Crime at Place
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp 16-41
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Summary
Take a moment to imagine a crime occurring – perhaps a street robbery or a bag snatch. When you do this, it is difficult not to visualize the crime occurring in a particular setting or place. So, you might imagine a dark street corner with dim street lighting or seating in the outside area of a public bar. It seems intuitively sensible to analyze and understand crime at this unit of analysis – in other words, to investigate how criminals behave and crime concentrates at small microplaces. However, engaging in such microlevel analysis has tended to be a more recent criminological undertaking, and there are still many fruitful avenues to explore in terms of advancing both our knowledge and the sophistication of the methods that we use in this research area.
In this chapter, we raise and endeavor to answer a number of questions concerning the appropriate scale of analysis of criminological enquiry. To do this, we will start by defining what we mean by place and how this differs from other geographic concepts. Next, we highlight what has become the key catalyst for the criminology of place – the tremendous concentration of crime at microgeographic units of analysis. The strong and consistent concentration of crime at addresses, street segments, and other microgeographic units across cities is key to understanding why it is important to study the criminology of place and why it has such strong policy implications. We then turn to some additional statistical benefits of studying crime at microgeographic units that have to do with what is often termed “spatial interaction effects.” Finally, we examine problems that crime and place researchers will need to consider, and recommend some future directions for research exploring crime concentration at places.
PLACE AND SPACE
Geographic concepts are sometimes used in criminological research without a clear understanding of their meaning. Place and space are two such concepts. The subtle difference between them is important to keep in mind, as they can be a guide to establishing a carefully constructed study and influence the interpretation of findings. Furthermore, as will become apparent later in this chapter, a confusion of these concepts can mislead the reader in the interpretation of an argument. For example, it is important to keep in mind that place does not necessarily mean small units of analysis, nor does space necessarily refer to large areas.
Place Matters
- Criminology for the Twenty-First Century
- David Weisburd, John E. Eck, Anthony A. Braga, Cody W. Telep, Breanne Cave, Kate Bowers, Gerben Bruinsma, Charlotte Gill, Elizabeth R. Groff, Julie Hibdon, Joshua C. Hinkle, Shane D. Johnson, Brian Lawton, Cynthia Lum, Jerry H. Ratcliffe, George Rengert, Travis Taniguchi, Sue-Ming Yang
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- 05 April 2016
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- 04 April 2016
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Over the last two decades, there has been increased interest in the distribution of crime and other antisocial behavior at lower levels of geography. The focus on micro geography and its contribution to the understanding and prevention of crime has been called the 'criminology of place'. It pushes scholars to examine small geographic areas within cities, often as small as addresses or street segments, for their contribution to crime. Here, the authors describe what is known about crime and place, providing the most up-to-date and comprehensive review available. Place Matters shows that the study of criminology of place should be a central focus of criminology in the twenty-first century. It creates a tremendous opportunity for advancing our understanding of crime, and for addressing it. The book brings together eighteen top scholars in criminology and place to provide comprehensive research expanding across different themes.
4 - The Importance of Place in Mainstream Criminology and Related Fields: Influences and Lessons to be Learned
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp 68-85
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Summary
This chapter explores the importance of place in theory and research in both mainstream criminology and other disciplines. As we noted in earlier chapters, traditional criminology has focused primarily on understanding why people commit crime. This focus on criminality has generally inhibited study of microgeographies and their role in producing crime. However, more recently there has been a trend toward integrating microgeographic places into traditional theorizing about criminality. In the first part of the chapter we discuss this trend, focusing on some recent innovations in understanding criminality that have incorporated place-based perspectives. In the second part of the chapter we focus on how other disciplines have influenced thinking in this area, focusing in particular on contributions in psychology, economics, and public health. Finally, we explore how trends in other disciplines might influence future directions of study in the criminology of place.
THE GROWING ROLE OF MICROGEOGRAPHIC PLACES IN TRADITIONAL THEORIZING OF CRIMINALITY
As we noted in Chapter 1, places, at least at a macro level, played a key part in the development of criminology in the nineteenth and early twentieth centuries. But despite the role of place in crime in empirical study in Europe and theoretical development in the Chicago School through social disorganization theory, microgeographic places were mostly ignored. This was not because early criminologists failed to recognize the role of place in crime. Crime occurs in specific environments, and this was apparent to observers of the crime problem. Nonetheless, as we noted in Chapter 1, early criminologists did not see “crime places” – small discrete areas within communities – as a relevant focus of criminological study. This was the case, in part, because crime opportunities provided by places were assumed to be so numerous as to make concentration on specific places of little utility for theory or policy. What is the point of focusing theory or research on the opportunities offered by specific places if such opportunities can be found throughout the urban context?
Moreover, criminologists did not see the utility in focusing in on situational opportunities when criminal motivation was the key to understanding crime rates. Criminologists traditionally assumed that situational factors played a relatively minor role in explaining crime as compared with the “driving force of criminal dispositions” (Clarke and Felson 1993, 4; Trasler 1993).
3 - Theories of Crime and Place
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp 42-67
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Summary
In the previous chapter, we showed that crime is concentrated at very small geographic units, substantially smaller than neighborhoods, and that these concentrations, on average, are relatively stable. This is true whether examining high- or low-crime neighborhoods. Although high-crime places do cluster, they seldom form a homogeneous block of high-crime places. Rather, interspersed within concentrations of high-crime places are many low- and modest-crime places.
Why is crime concentrated in a relatively small number of places? Standard criminology has not asked this question, largely because standard criminology focuses on criminality and implicitly assumes that the density of offenders explains crime density. Recognition that place characteristics matter is the starting point for this chapter. We look at two perspectives on crime place characteristics. We use the term “perspective” because each type of explanation is comprised of multiple theories linked by a common orientation. The first perspective arises from opportunity theories of crime. The second perspective arises from social disorganization theories of crime.
We begin by contrasting two ways of thinking about how a place becomes a crime hot spot and suggest that the process by which high-crime places evolve must involve place characteristics. In the next sections, we examine opportunity and social disorganization explanations. In the final section of the chapter, we examine possible ways researchers might link these two perspectives.
PROCESSES THAT CREATE CRIME PLACES
Before we look for explanations of why places become hot spots of crime it is important to consider two processes that might lead to such an outcome. Criminologists have generally proposed two generic models to account for the processes that lead to variation in place susceptibility to crime. One model suggests that places may start with reasonably similar risks of an initial criminal attack, but once attacked the risk of a subsequent attack on the place rises. Over time, places diverge in their crime risk, and consequently in their crime counts. This temporal contagion model is also known as a boost model (see Chapter 2) or a state-dependence model. It puts the emphasis on offenders’ willingness to return to a previously successful crime site (Johnson et al. 2007; Townsley et al. 2000). It suggests that irrespective of initial crime risk the occurrence of a crime will lead to changes in risk of crime at a place.
List of figures
- David Weisburd, George Mason University, Virginia, John E. Eck, University of Cincinnati, Anthony A. Braga, John F. Kennedy School of Government, Massachusetts, Cody W. Telep, Arizona State University, Breanne Cave, George Mason University, Virginia, Kate Bowers, University College London, Gerben Bruinsma, VU University Amsterdam, Charlotte Gill, George Mason University, Virginia, Elizabeth R. Groff, Temple University, Philadelphia, Julie Hibdon, Southern Illinois University, Carbondale, Joshua C. Hinkle, Georgia State University, Shane D. Johnson, University College London, Brian Lawton, John Jay College of Criminal Justice, City University of New York, Cynthia Lum, George Mason University, Virginia, Jerry H. Ratcliffe, Temple University, Philadelphia, George Rengert, Temple University, Philadelphia, Travis Taniguchi, Sue-Ming Yang, George Mason University, Virginia
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- Place Matters
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- 05 April 2016
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- 04 April 2016, pp vii-x
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