Your search keyword '"Jones, James W"' showing total 9 results

1. Keeping up with the fast-moving world of crisis management

Author

Rice, Charles W, Schoen, Robin, Aristidou, Aristos, Burgess, Shane C, Capalbo, Susan, Czarnecki-Maulden, Gail, Dunham, Bernadette, Ejeta, Gibesa, Famigilietti, Jay S, Gould, Fred, Hamer, John, Jackson-Smith, Douglas B, Jones, James W, Kebreab, Ermias, Kelley, Stephen S, Leach, Jan E, Lougee, Robin, McCluskey, Jill J, Plaut, Karen I, Salvador, Ricardo J, and Sample, V Alaric

Subjects

Applied Economics, Sociology, Geography

Published

2020

2. Toward a new generation of agricultural system data, models, and knowledge products: State of agricultural systems science

Author

Jones, James W, Antle, John M, Basso, Bruno, Boote, Kenneth J, Conant, Richard T, Foster, Ian, Godfray, H Charles J, Herrero, Mario, Howitt, Richard E, Janssen, Sander, Keating, Brian A, Munoz-Carpena, Rafael, Porter, Cheryl H, Rosenzweig, Cynthia, and Wheeler, Tim R

Subjects

Environmental Sciences, Integrated agricultural systems models, Crop models, Economic models, Livestock models, Use cases, Agricultural data, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Environmental sciences

Abstract

We review the current state of agricultural systems science, focusing in particular on the capabilities and limitations of agricultural systems models. We discuss the state of models relative to five different Use Cases spanning field, farm, landscape, regional, and global spatial scales and engaging questions in past, current, and future time periods. Contributions from multiple disciplines have made major advances relevant to a wide range of agricultural system model applications at various spatial and temporal scales. Although current agricultural systems models have features that are needed for the Use Cases, we found that all of them have limitations and need to be improved. We identified common limitations across all Use Cases, namely 1) a scarcity of data for developing, evaluating, and applying agricultural system models and 2) inadequate knowledge systems that effectively communicate model results to society. We argue that these limitations are greater obstacles to progress than gaps in conceptual theory or available methods for using system models. New initiatives on open data show promise for addressing the data problem, but there also needs to be a cultural change among agricultural researchers to ensure that data for addressing the range of Use Cases are available for future model improvements and applications. We conclude that multiple platforms and multiple models are needed for model applications for different purposes. The Use Cases provide a useful framework for considering capabilities and limitations of existing models and data.

Published

2017

3. Brief history of agricultural systems modeling

Author

Jones, James W, Antle, John M, Basso, Bruno, Boote, Kenneth J, Conant, Richard T, Foster, Ian, Godfray, H Charles J, Herrero, Mario, Howitt, Richard E, Janssen, Sander, Keating, Brian A, Munoz-Carpena, Rafael, Porter, Cheryl H, Rosenzweig, Cynthia, and Wheeler, Tim R

Subjects

Agricultural, Veterinary and Food Sciences, Agricultural systems, Models, Next generation, Data History, Data, History, Environmental Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Environmental sciences

Abstract

Agricultural systems science generates knowledge that allows researchers to consider complex problems or take informed agricultural decisions. The rich history of this science exemplifies the diversity of systems and scales over which they operate and have been studied. Modeling, an essential tool in agricultural systems science, has been accomplished by scientists from a wide range of disciplines, who have contributed concepts and tools over more than six decades. As agricultural scientists now consider the "next generation" models, data, and knowledge products needed to meet the increasingly complex systems problems faced by society, it is important to take stock of this history and its lessons to ensure that we avoid re-invention and strive to consider all dimensions of associated challenges. To this end, we summarize here the history of agricultural systems modeling and identify lessons learned that can help guide the design and development of next generation of agricultural system tools and methods. A number of past events combined with overall technological progress in other fields have strongly contributed to the evolution of agricultural system modeling, including development of process-based bio-physical models of crops and livestock, statistical models based on historical observations, and economic optimization and simulation models at household and regional to global scales. Characteristics of agricultural systems models have varied widely depending on the systems involved, their scales, and the wide range of purposes that motivated their development and use by researchers in different disciplines. Recent trends in broader collaboration across institutions, across disciplines, and between the public and private sectors suggest that the stage is set for the major advances in agricultural systems science that are needed for the next generation of models, databases, knowledge products and decision support systems. The lessons from history should be considered to help avoid roadblocks and pitfalls as the community develops this next generation of agricultural systems models.

Published

2017

4. Towards a new generation of agricultural system data, models and knowledge products: Design and improvement

Author

Antle, John M, Basso, Bruno, Conant, Richard T, Godfray, H Charles J, Jones, James W, Herrero, Mario, Howitt, Richard E, Keating, Brian A, Munoz-Carpena, Rafael, Rosenzweig, Cynthia, Tittonell, Pablo, and Wheeler, Tim R

Subjects

Agricultural, Veterinary and Food Sciences, Environmental Sciences, Industry, Innovation and Infrastructure, Zero Hunger, Agriculture, Systems, Models, Data, Knowledge products, Next generation, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Environmental sciences

Abstract

This paper presents ideas for a new generation of agricultural system models that could meet the needs of a growing community of end-users exemplified by a set of Use Cases. We envision new data, models and knowledge products that could accelerate the innovation process that is needed to achieve the goal of achieving sustainable local, regional and global food security. We identify desirable features for models, and describe some of the potential advances that we envisage for model components and their integration. We propose an implementation strategy that would link a "pre-competitive" space for model development to a "competitive space" for knowledge product development and through private-public partnerships for new data infrastructure. Specific model improvements would be based on further testing and evaluation of existing models, the development and testing of modular model components and integration, and linkages of model integration platforms to new data management and visualization tools.

Published

2017

5. Heterogeneous feeding patterns of the dengue vector, Aedes aegypti, on individual human hosts in rural Thailand.

Author

Harrington, Laura C, Fleisher, Andrew, Ruiz-Moreno, Diego, Vermeylen, Francoise, Wa, Chrystal V, Poulson, Rebecca L, Edman, John D, Clark, John M, Jones, James W, Kitthawee, Sangvorn, and Scott, Thomas W

Subjects

Animals, Humans, Aedes, Dengue, Insect Bites and Stings, Feeding Behavior, Insect Vectors, Adolescent, Adult, Child, Thailand, Female, Male, Biological Sciences, Medical and Health Sciences, Tropical Medicine

Abstract

BackgroundMosquito biting frequency and how bites are distributed among different people can have significant epidemiologic effects. An improved understanding of mosquito vector-human interactions would refine knowledge of the entomological processes supporting pathogen transmission and could reveal targets for minimizing risk and breaking pathogen transmission cycles.Methodology and principal findingsWe used human DNA blood meal profiling of the dengue virus (DENV) vector, Aedes aegypti, to quantify its contact with human hosts and to infer epidemiologic implications of its blood feeding behavior. We determined the number of different people bitten, biting frequency by host age, size, mosquito age, and the number of times each person was bitten. Of 3,677 engorged mosquitoes collected and 1,186 complete DNA profiles, only 420 meals matched people from the study area, indicating that Ae. aegypti feed on people moving transiently through communities to conduct daily business. 10-13% of engorged mosquitoes fed on more than one person. No biting rate differences were detected between high- and low-dengue transmission seasons. We estimate that 43-46% of engorged mosquitoes bit more than one person within each gonotrophic cycle. Most multiple meals were from residents of the mosquito collection house or neighbors. People ≤ 25 years old were bitten less often than older people. Some hosts were fed on frequently, with three hosts bitten nine times. Interaction networks for mosquitoes and humans revealed biologically significant blood feeding hotspots, including community marketplaces.Conclusion and significanceHigh multiple-feeding rates and feeding on community visitors are likely important features in the efficient transmission and rapid spread of DENV. These results help explain why reducing vector populations alone is difficult for dengue prevention and support the argument for additional studies of mosquito feeding behavior, which when integrated with a greater understanding of human behavior will refine estimates of risk and strategies for dengue control.

Published

2014

6. Tropical agricultural land management influences on soil microbial communities through its effect on soil organic carbon

Author

Sul, Woo Jun, Asuming-Brempong, Stella, Wang, Qiong, Tourlousse, Dieter M, Penton, C Ryan, Deng, Ye, Rodrigues, Jorge LM, Adiku, Samuel GK, Jones, James W, Zhou, Jizhong, Cole, James R, and Tiedje, James M

Subjects

Zero Hunger, Life on Land, Tropical agricultural practices, Soil organic carbon loss, SSU rRNA genes, Microbial community, Acidobacteria, Bacillales, Pigeon-pea winter-period cultivation, Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture

Abstract

We analyzed the microbial community that developed after 4 years of testing different soil-crop management systems in the savannah–forest transition zone of Eastern Ghana where management systems can rapidly alter stored soil carbon as well as soil fertility. The agricultural managements were: (i) the local practice of fallow regrowth of native elephant grass (Pennisetum purpureum) followed by biomass burning before planting maize in the spring, (ii) the same practice but without burning and the maize receiving mineral nitrogen fertilizer, (iii) a winter crop of a legume, pigeon pea (Cajanus cajan), followed by maize, (iv) vegetation free winter period (bare fallow) followed by maize, and (v) unmanaged elephant grass-shrub vegetation. The mean soil organic carbon (SOC) contents of the soils after 4 years were: 1.29, 1.67, 1.54, 0.80 and 1.34%, respectively, differences that should affect resources for the microbial community.From about 290,000 sequences obtained by pyrosequencing the SSU rRNA gene, canonical correspondence analysis showed that SOC was the most important factor that explained differences in microbial community structure among treatments. This analysis as well as phylogenetic ecological network construction indicated that members of the Acidobacteria GP4 and GP6 were more abundant in soils with relatively high SOC whereas Acidobacteria GP1, GP7, and Actinobacteria were more prevalent in soil with lower SOC. Burning of winter fallow vegetation led to an increase in Bacillales, especially those belonging to spore-forming genera. Of the managements, pigeon-pea cultivation during the winter period promoted a higher microbial diversity and also sequestered more SOC, presumably improving soil structure, fertility, and resiliency.

Published

2013

7. Fine Scale Spatiotemporal Clustering of Dengue Virus Transmission in Children and Aedes aegypti in Rural Thai Villages

Author

Yoon, In-Kyu, Getis, Arthur, Aldstadt, Jared, Rothman, Alan L, Tannitisupawong, Darunee, Koenraadt, Constantianus JM, Fansiri, Thanyalak, Jones, James W, Morrison, Amy C, Jarman, Richard G, Nisalak, Ananda, Mammen, Mammen P, Thammapalo, Suwich, Srikiatkhachorn, Anon, Green, Sharone, Libraty, Daniel H, Gibbons, Robert V, Endy, Timothy, Pimgate, Chusak, and Scott, Thomas W

Subjects

Clinical Research, Vaccine Related, Vector-Borne Diseases, Biodefense, Infectious Diseases, Prevention, Emerging Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Adolescent, Aedes, Animals, Antibodies, Viral, Child, Child, Preschool, Cluster Analysis, Cohort Studies, Dengue, Dengue Virus, Disease Transmission, Infectious, Enzyme-Linked Immunosorbent Assay, Female, Humans, Immunoglobulin G, Immunoglobulin M, Infant, Longitudinal Studies, Male, Polymerase Chain Reaction, Rural Population, Thailand, Biological Sciences, Medical and Health Sciences, Tropical Medicine

Abstract

BackgroundBased on spatiotemporal clustering of human dengue virus (DENV) infections, transmission is thought to occur at fine spatiotemporal scales by horizontal transfer of virus between humans and mosquito vectors. To define the dimensions of local transmission and quantify the factors that support it, we examined relationships between infected humans and Aedes aegypti in Thai villages.Methodology/principal findingsGeographic cluster investigations of 100-meter radius were conducted around DENV-positive and DENV-negative febrile "index" cases (positive and negative clusters, respectively) from a longitudinal cohort study in rural Thailand. Child contacts and Ae. aegypti from cluster houses were assessed for DENV infection. Spatiotemporal, demographic, and entomological parameters were evaluated. In positive clusters, the DENV infection rate among child contacts was 35.3% in index houses, 29.9% in houses within 20 meters, and decreased with distance from the index house to 6.2% in houses 80-100 meters away (p

Published

2012

8. Ecological modeling of Aedes aegypti (L.) pupal production in rural Kamphaeng Phet, Thailand.

Author

Aldstadt, Jared, Koenraadt, Constantianus JM, Fansiri, Thanyalak, Kijchalao, Udom, Richardson, Jason, Jones, James W, and Scott, Thomas W

Subjects

Animals, Humans, Aedes, Water, Models, Statistical, Ecosystem, Seasons, Insect Vectors, Population Density, Population Dynamics, Pupa, Rural Population, Thailand, Models, Statistical, Biological Sciences, Medical and Health Sciences, Tropical Medicine

Abstract

BackgroundAedes aegypti (L.) is the primary vector of dengue, the most important arboviral infection globally. Until an effective vaccine is licensed and rigorously administered, Ae. aegypti control remains the principal tool in preventing and curtailing dengue transmission. Accurate predictions of vector populations are required to assess control methods and develop effective population reduction strategies. Ae. aegypti develops primarily in artificial water holding containers. Release recapture studies indicate that most adult Ae. aegypti do not disperse over long distances. We expect, therefore, that containers in an area of high development site density are more likely to be oviposition sites and to be more frequently used as oviposition sites than containers that are relatively isolated from other development sites. After accounting for individual container characteristics, containers more frequently used as oviposition sites are likely to produce adult mosquitoes consistently and at a higher rate. To this point, most studies of Ae. aegypti populations ignore the spatial density of larval development sites.MethodologyPupal surveys were carried out from 2004 to 2007 in rural Kamphaeng Phet, Thailand. In total, 84,840 samples of water holding containers were used to estimate model parameters. Regression modeling was used to assess the effect of larval development site density, access to piped water, and seasonal variation on container productivity. A varying-coefficients model was employed to account for the large differences in productivity between container types. A two-part modeling structure, called a hurdle model, accounts for the large number of zeroes and overdispersion present in pupal population counts.FindingsThe number of suitable larval development sites and their density in the environment were the primary determinants of the distribution and abundance of Ae. aegypti pupae. The productivity of most container types increased significantly as habitat density increased. An ecological approach, accounting for development site density, is appropriate for predicting Ae. aegypti population levels and developing efficient vector control programs.

Published

2011

9. Spatial and Temporal Clustering of Dengue Virus Transmission in Thai Villages

Author

Mammen, Mammen P, Pimgate, Chusak, Koenraadt, Constantianus JM, Rothman, Alan L, Aldstadt, Jared, Nisalak, Ananda, Jarman, Richard G, Jones, James W, Srikiatkhachorn, Anon, Ypil-Butac, Charity Ann, Getis, Arthur, Thammapalo, Suwich, Morrison, Amy C, Libraty, Daniel H, Green, Sharone, and Scott, Thomas W

Subjects

Rare Diseases, Pediatric, Clinical Research, Vaccine Related, Prevention, Vector-Borne Diseases, Biodefense, Infectious Diseases, Emerging Infectious Diseases, 3.2 Interventions to alter physical and biological environmental risks, 2.2 Factors relating to the physical environment, Prevention of disease and conditions, and promotion of well-being, Aetiology, Infection, Good Health and Well Being, Adolescent, Animals, Child, Child, Preschool, Cluster Analysis, Culicidae, Dengue, Dengue Virus, Female, Humans, Infant, Logistic Models, Male, Mosquito Control, Thailand, Medical and Health Sciences, General & Internal Medicine

Abstract

BackgroundTransmission of dengue viruses (DENV), the leading cause of arboviral disease worldwide, is known to vary through time and space, likely owing to a combination of factors related to the human host, virus, mosquito vector, and environment. An improved understanding of variation in transmission patterns is fundamental to conducting surveillance and implementing disease prevention strategies. To test the hypothesis that DENV transmission is spatially and temporally focal, we compared geographic and temporal characteristics within Thai villages where DENV are and are not being actively transmitted.Methods and findingsCluster investigations were conducted within 100 m of homes where febrile index children with (positive clusters) and without (negative clusters) acute dengue lived during two seasons of peak DENV transmission. Data on human infection and mosquito infection/density were examined to precisely (1) define the spatial and temporal dimensions of DENV transmission, (2) correlate these factors with variation in DENV transmission, and (3) determine the burden of inapparent and symptomatic infections. Among 556 village children enrolled as neighbors of 12 dengue-positive and 22 dengue-negative index cases, all 27 DENV infections (4.9% of enrollees) occurred in positive clusters (p < 0.01; attributable risk [AR] = 10.4 per 100; 95% confidence interval 1-19.8 per 100]. In positive clusters, 12.4% of enrollees became infected in a 15-d period and DENV infections were aggregated centrally near homes of index cases. As only 1 of 217 pairs of serologic specimens tested in positive clusters revealed a recent DENV infection that occurred prior to cluster initiation, we attribute the observed DENV transmission subsequent to cluster investigation to recent DENV transmission activity. Of the 1,022 female adult Ae. aegypti collected, all eight (0.8%) dengue-infected mosquitoes came from houses in positive clusters; none from control clusters or schools. Distinguishing features between positive and negative clusters were greater availability of piped water in negative clusters (p < 0.01) and greater number of Ae. aegypti pupae per person in positive clusters (p = 0.04). During primarily DENV-4 transmission seasons, the ratio of inapparent to symptomatic infections was nearly 1:1 among child enrollees. Study limitations included inability to sample all children and mosquitoes within each cluster and our reliance on serologic rather than virologic evidence of interval infections in enrollees given restrictions on the frequency of blood collections in children.ConclusionsOur data reveal the remarkably focal nature of DENV transmission within a hyperendemic rural area of Thailand. These data suggest that active school-based dengue case detection prompting local spraying could contain recent virus introductions and reduce the longitudinal risk of virus spread within rural areas. Our results should prompt future cluster studies to explore how host immune and behavioral aspects may impact DENV transmission and prevention strategies. Cluster methodology could serve as a useful research tool for investigation of other temporally and spatially clustered infectious diseases.

Published

2008