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1. Four-century history of land transformation by humans in the United States (1630–2020): annual and 1 km grid data for the HIStory of LAND changes (HISLAND-US)

   https://doi.org/10.5194/essd-15-1005-2023  

   Li, Xiaoyong; Tian, Hanqin; Lu, Chaoqun; Pan, Shufen (January 2023, Earth System Science Data)

   Abstract. The land of the conterminous United States (CONUS) hasbeen transformed dramatically by humans over the last four centuries throughland clearing, agricultural expansion and intensification, and urban sprawl.High-resolution geospatial data on long-term historical changes in land useand land cover (LULC) across the CONUS are essential for predictiveunderstanding of natural–human interactions and land-based climatesolutions for the United States. A few efforts have reconstructed historicalchanges in cropland and urban extent in the United States since themid-19th century. However, the long-term trajectories of multiple LULCtypes with high spatial and temporal resolutions since the colonial era(early 17th century) in the United States are not available yet. Byintegrating multi-source data, such as high-resolution remote sensingimage-based LULC data, model-based LULC products, and historical censusdata, we reconstructed the history of land use and land cover for theconterminous United States (HISLAND-US) at an annual timescale and 1 km × 1 km spatial resolution in the past 390 years (1630–2020). The results showwidespread expansion of cropland and urban land associated with rapid lossof natural vegetation. Croplands are mainly converted from forest, shrub,and grassland, especially in the Great Plains and North Central regions.Forest planting and regeneration accelerated the forest recovery in theNortheast and Southeast since the 1920s. The geospatial and long-termhistorical LULC data from this study provide critical information forassessing the LULC impacts on regional climate, hydrology, andbiogeochemical cycles as well as achieving sustainable use of land in thenation. The datasets are available at https://doi.org/10.5281/zenodo.7055086 (Li et al., 2022). 

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2. Projections of Global Delta Land Loss From Sea‐Level Rise in the 21st Century

   https://doi.org/10.1029/2021GL093368  

   Nienhuis, Jaap H.; van de Wal, Roderik S. W. (July 2021, Geophysical Research Letters)

   Abstract River deltas will likely experience significant land loss because of relative sea‐level rise (RSLR), but predictions have not been tested against observations. Here, we use global data of RSLR and river sediment supply to build a model of delta response to RSLR for 6,402 deltas, representing 86% of global delta land. We validate this model against delta land area change observations from 1985–2015, and project future land area change for IPCC RSLR scenarios. For 2100, we find widely ranging delta scenarios, from +94 ± 125 (2 s.d.) km²yr⁻¹for representative concentration pathway (RCP) 2.6 to −1,026 ± 281 km²yr⁻¹for RCP8.5. River dams, subsidence, and sea‐level rise have had a comparable influence on reduced delta growth over the past decades, but if we follow RCP8.5 to 2100, more than 85% of delta land loss will be caused by climate‐change driven sea‐level rise, resulting in a loss of ∼5% of global delta land. 

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3. Land use and land cover changes in the contiguous United States from 1630 to 2020

   https://doi.org/10.5281/zenodo.6469247  

   Li, Xiaoyong; Tian, Hanqin; Pan, Shufen; Lu, Chaoqun (January 2022, Zenodo)

   Through integrating multi-source data including high-resolution remote sensing image-based land use and land cover (LULC) data, model-based land use products, and historical land archives, we reconstructed historical LULC at an annual time scale and 1 km x 1 km resolution in the contiguous United States (CONUS) from 1630 to 2020. Compared to other historical LULC datasets, our data can capture the major characters of LULC as well as provide more accurate information with higher spatial and temporal resolution. The LULC data can be used for regional studies in a wide range of topics including LULC impacts on the ecosystem, biodiversity, water resource, carbon and nitrogen cycles, and greenhouse gas emissions.</p> 

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4. A Synthesis of Land Use/Land Cover Studies: Definitions, Classification Systems, Meta-Studies, Challenges and Knowledge Gaps on a Global Landscape

   https://doi.org/10.3390/land10090994  

   Nedd, Ryan; Light, Katie; Owens, Marcia; James, Neil; Johnson, Elijah; Anandhi, Aavudai (September 2021, Land)

   Land is a natural resource that humans have utilized for life and various activities. Land use/land cover change (LULCC) has been of great concern to many countries over the years. Some of the main reasons behind LULCC are rapid population growth, migration, and the conversion of rural to urban areas. LULC has a considerable impact on the land-atmosphere/climate interactions. Over the past two decades, numerous studies conducted in LULC have investigated various areas of the field of LULC. However, the assemblage of information is missing for some aspects. Therefore, to provide coherent guidance, a literature review to scrutinize and evaluate many studies in particular topical areas is employed. This research study collected approximately four hundred research articles and investigated five (5) areas of interest, including (1) LULC definitions; (2) classification systems used to classify LULC globally; (3) direct and indirect changes of meta-studies associated with LULC; (4) challenges associated with LULC; and (5) LULC knowledge gaps. The synthesis revealed that LULC definitions carried vital terms, and classification systems for LULC are at the national, regional, and global scales. Most meta-studies for LULC were in the categories of direct and indirect land changes. Additionally, the analysis showed significant areas of LULC challenges were data consistency and quality. The knowledge gaps highlighted a fall in the categories of ecosystem services, forestry, and data/image modeling in LULC. Core findings exhibit common patterns, discrepancies, and relationships from the multiple studies. While literature review as a tool showed similarities among various research studies, our results recommend researchers endeavor to perform further synthesis in the field of LULC to promote our overall understanding, since research investigations will continue in LULC. 

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5. Successional and native forests predict the occurrence and infection status of Chagas disease vectors in Panama

   https://doi.org/10.1111/1365-2664.70251  

   Hoyos, Juliana; Saldaña, Azael; Altizer, Sonia; Pineda, Vanessa; Gonzalez, Kadir; Calzada, Jose E; de_Brito, Raissa Nogueira; Tanner, Susan; Mendieta, Daniel; Cumbrera, Alberto; et al (January 2026, Journal of Applied Ecology)

   Abstract Changes in land use and land cover (LULC) due to agricultural expansion, commercial land management and other human‐driven modifications significantly influence the ecology of pathogens and vectors. This underscores the urgent need to understand how these respond to rapid and dynamic land use changes in these ecosystems and, critically, to identify strategies for mitigating their impacts.In tropical Central and South America, palm trees serve as primary habitats forRhodniuskissing bugs, vectors ofTrypanosoma cruzi, the etiologic agent of Chagas disease. This study investigates how LULC, weather and traits of the palmAttalea butyraceapredict the occurrence and infection ofRhodnius pallescens, integrating field data collection, molecular detection and spatial and hierarchical analyses across a rural landscape in Panama.Rhodnius pallescenswere collected from 46 palms in 11 communities with different landscape compositions including native forests, grasslands, successional forests and artificial structures. Robust occupancy modelling using land cover data at 10 m²resolution revealed that successional forest cover at 300 m spatial scale predicted greater occurrence ofR. pallescens, whereas native forest predicted lower occurrence. Quadratic models outperformed linear models, indicating occupancy peaks at intermediate land covers and palm tree traits.Real‐time PCR assays detectedTrypanosomainfections in 70% ofR. pallescensacross communities. Spatial autocorrelation analyses showed significant spatial clustering forT. cruzibut not forTrypanosoma rangeli. We used generalized additive mixed models to assess the influence of palm‐level and landscape‐scale attributes on parasite infection and identified significant nonlinear positive associations betweenT.cruziinfection and native forest and grassland, with high predictive accuracy (AUC = 0.90).Synthesis and applications. Findings here show that successional forest predicts greater kissing bug infestation risk in palm trees, whereas native forest predicts lower kissing bug occurrence but greater infection withT. cruzi. These insights can guide land use planning towards vegetation management practices that help minimizeT. cruzitransmission risks for rural communities. Importantly, vector surveillance should target forest‐grassland ecotones and consider forest successional stages near settlements, with intensified monitoring after disturbances; this approach is applicable to other vector‐borne pathogen systems shaped by land use change. 

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