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1. Bangladesh Environment and Migration Survey (BEMS), 2019 :Version 1

   https://doi.org/10.3886/ICPSR38846.v1  

   Carrico, Amanda; Donato, Katharine M. (January 2023, ICPSR - Interuniversity Consortium for Political and Social Research)

   The Bangladesh Environment and Migration Survey (BEMS) collects detailed retrospective information about migration trips in southwest Bangladesh, including the first, last, and second-to-last to internal destinations, India, and other international destinations. BEMS collects information about the year, origin, destination, and duration of all trips. Furthermore, BEMS includes information on migration and livelihood histories, socioeconomic conditions, agricultural resources and practices, disasters and perceptions about environment, and self-reported health.</p> Dataset 1 is a household-level file with information about household composition, economic and migratory activity of household members, land ownership/usage, business ownership, household environmental perceptions, environmental conditions, agricultural activities, and physical and psychological health/well-being of household members. Dataset 2 is an individual-level file containing details of internal and international migration trips, as well as measures of economic and social activity during those trips. It also contains information provided by household heads, spouses, and other migrants in the household. Dataset 3 is an individual-level data file that provides general demographic information and brief migration history for each member of a surveyed household. It also includes health information for the head of household and spouse.</p> The purpose of the Bangladesh Environment and Migration Survey (BEMS) is to understand patterns and processes of contemporary internal and international migration in Bangladesh. The project derives from a multi-disciplinary research effort that will generate data on the characteristics and behavior of Bangladeshi migrants and non-migrants and the communities in which they live, and examine whether and how environmental stressors (e.g., salinity, riverbank erosion) affect patterns of migration in this region. The household ethnosurvey is administered to self-identified household heads and spouses in randomly selected households. After gathering social, demographic, and economic information on households and their members, interviewers will collect basic information on each person's first, 2nd to last, and last (or most recent) internal and international migration trips. From household heads and spouses, they will compile migration histories and administer a detailed series of questions about a selection of these trips, focusing on economic livelihoods, methods of moving, connections to other migrants, and use of health and school services. In addition to detailed migration histories, the BEMS will collect information about household wealth, physical conditions of households and communities, and perceptions of environmental conditions. It will also gather some self-reported health information about household members, such as recent illnesses, use of health services, height and weight, and diet. The BEMS is closely modeled on the sampling design and ethnosurvey used in the Mexican Migration Project. The BEMS data were collected in 20 research sites from a random sample of 200 households in each site in 2019. BEMS data include a total of 4,000 households in communities broadly covering the southwest region of Bangladesh. Households in southwest Bangladesh. Smallest Geographic Unit: Administrative region For more information about this study, please visit the ISEE Bangladesh project website.</p> 

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2. Effects of Marsh Migration on Flooding, Saltwater Intrusion, and Crop Yield in Coastal Agricultural Land Subject to Storm Surge Inundation

   https://doi.org/10.1029/2020WR028326  

   Guimond, Julia_A; Michael, Holly_A (February 2021, Water Resources Research)

   Abstract Low‐lying coastlines are vulnerable to sea‐level rise and storm surge salinization, threatening the sustainability of coastal farmland. Most crops are intolerant of salinity, and minimization of saltwater intrusion is critical to crop preservation. Coastal wetlands provide numerous ecosystem services, including attenuation of storm surges. However, most research studying coastal protection by marshes neglects consideration of subsurface salinization. Here, we use two‐dimensional, variable‐density, coupled surface‐subsurface hydrological models to explore how coastal wetlands affect surface and subsurface salinization due to storm surges. We evaluate how marsh width, surge height, and upland slope impact the magnitude of saltwater intrusion and the effect of marsh migration into farmland on crop yield. Results suggest that along topographically low coastlines subject to storm surges, marsh migration into agricultural fields prolongs the use of fields landward of the marsh while also protecting groundwater quality. Under a storm surge height of 3.0 m above mean sea level or higher and terrestrial slope of 0.1%, marsh migration of 200 and 400 m protects agricultural yield landward of the marsh‐farmland interface compared to scenarios without migration, despite the loss of arable land. Economic calculations show that the maintained yields with 200 m of marsh migration may benefit farmers financially. However, yields are not maintained with migration widths over 400 m or surge height under 3.0 m above mean sea level. Results highlight the environmental and economic benefits of marsh migration and the need for more robust compensation programs for landowners incorporating coastal wetland development as a management strategy. 

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3. Landscapes of Rizq: Islam, Masculinity, and Speculative Real Estate in Lahore

   Rahman, Tariq (January 2021, Society for Economic Anthropology Annual Meeting)

   Landscapes of Rizq: Islam, Masculinity, and Speculative Real Estate in Lahore The city of Lahore, Pakistan has expanded by 20% in the past 20 years alone. Lahore’s exponential growth is fueled by a financialized real estate market that facilitates speculative trading of plots of land rather than constructed buildings. At the city’s ever-expanding periphery, real estate developers armed with drones and legal teams scout for cheap land while agricultural landowners collaborate to resist these efforts by refusing to sell or inflating prices. In WhatsApp groups, local and overseas Pakistani investors carefully monitor these events by sharing rumors, leaked documents, Google satellite images, and personal photos and videos in order to make their own assessments about the value of land. In the struggle to keep, buy, and sell land, several different approaches to placemaking collide—land as generational wealth; land as expansion of the modern city; land as entry to the middle class; and land as return to the homeland. Meanwhile, the financialization of land has taken a devastating toll on urban development, leading to the displacement of tenant farmers, unprecedented deforestation, and Lahore becoming the second most polluted city in the world. At the same time, speculative real estate in Lahore exists against the backdrop of Pakistan’s longstanding political and economic instability, which includes a largely unregulated economy, dramatic policy changes imposed by international organizations such as the International Monetary Fund and the Financial Action Task Force, and unpredictable currency fluctuations during the 2020 pandemic. While real estate is the most popular form of financial activity in Lahore, it is also extraordinarily risky. Developers routinely sell land before they possess it even though acquisition attempts often fail and government planning permissions to convert agricultural land into urban land are not always received. Local and overseas Pakistanis regularly invest in land despite the long history of fraud and turmoil in the market. Based on 24 months of ethnographic fieldwork in Lahore with developers, investors and landowners, this paper analyzes how these actors navigate risk through the concept of rizq, or the Islamic belief that despite one’s best efforts, their material possessions are ultimately provided by God. I show how rizq and real estate constitute dual economies between which all debts are eventually settled. Attending to the role of masculinity in this male-dominated market, I also examine how rizq entangles with financialization through the male archetypes of the patron, the patriarch, and the adventurer. At the intersection of Islam, masculinity, and speculative real estate, I argue that rizq enables an audacious mode of speculation that has devastated the landscape of Lahore. This paper presentation will be pre-recorded and read over drone footage collected during fieldwork that highlights the speculative landscape of Lahore. 

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4. A Landscape Evolution Modeling Approach for Predicting Three‐Dimensional Soil Organic Carbon Redistribution in Agricultural Landscapes

   https://doi.org/10.1029/2021JG006616  

   Kwang, Jeffrey S.; Thaler, Evan A.; Quirk, Brendon J.; Quarrier, Caroline L.; Larsen, Isaac J. (February 2022, Journal of Geophysical Research: Biogeosciences)

   Abstract Soil erosion diminishes agricultural productivity by driving the loss of soil organic carbon (SOC). The ability to predict SOC redistribution is important for guiding sustainable agricultural practices and determining the influence of soil erosion on the carbon cycle. Here, we develop a landscape evolution model that couples soil mixing and transport to predict soil loss and SOC patterns within agricultural fields. Our reduced complexity numerical model requires the specification of only two physical parameters: a plow mixing depth,L_p, and a hillslope diffusion coefficient,D. Using topography as an input, the model predicts spatial patterns of surficial SOC concentrations and complex 3D SOC pedostratigraphy. We use soil cores from native prairies to determine initial SOC‐depth relations and the spatial pattern of remote sensing‐derived SOC in adjacent agricultural fields to evaluate the model predictions. The model reproduces spatial patterns of soil loss comparable to those observed in satellite images. Our results indicate that the distribution of soil erosion and SOC in agricultural fields can be predicted using a simple geomorphic model where hillslope diffusion plays a dominant role. Such predictions can aid estimates of carbon burial and evaluate the potential for future soil loss in agricultural landscapes. 

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5. Volcanic Arc Weathering Rates in the Humid Tropics Controlled by the Interplay Between Physical Erosion and Precipitation

   https://doi.org/10.1029/2023AV001066  

   Moore, Angus_K; Méndez_Méndez, Kimberly; Hughes, K_Stephen; Granger, Darryl_E (March 2024, AGU Advances)

   Abstract Volcanic arcs are chemical weathering hotspots that may contribute disproportionately to global CO₂consumption through silicate weathering. Accurately modeling the impact of volcanic‐arc landscapes on the Earth's long‐term carbon cycle requires understanding how climate and physical erosion control weathering fluxes from arc landscapes. We evaluate these controls by examining the covariation of stream solutes, sediment geochemistry, and long‐term physical erosion fluxes inferred from cosmogenic³⁶Cl in magnetite in volcanic watersheds in Puerto Rico that span a ca. 15‐fold gradient in specific discharge. Analysis of this data using power‐law relationships demonstrates that CO₂consumption from arc‐rock weathering in the humid tropics is more strongly limited by physical erosion and the supply of primary minerals to the weathering zone than by temperature or the flux of fresh, chemically reactive waters through the critical zone. However, a positive correlation between long‐term physical erosion fluxes and specific discharge is also observed. This indicates that fresh mineral supply in arc environments may ultimately depend on precipitation rates, which may maintain a coupling between arc‐rock weathering fluxes and climate under principally supply limited weathering conditions. 

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