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1. Regional-Scale Detection of Palms Using VHR Satellite Imagery and Deep Learning in the Guyanese Rainforest

   https://doi.org/10.3390/rs16244642  

   Drouillard, Matthew J; Cummings, Anthony R (December 2024, Remote Sensing)

   Arecaceae (palms) play a crucial role for native communities and wildlife in the Amazon region. This study presents a first-of-its-kind regional-scale spatial cataloging of palms using remotely sensed data for the country of Guyana. Using very high-resolution satellite images from the GeoEye-1 and WorldView-2 sensor platforms, which collectively cover an area of 985 km2, a total of 472,753 individual palm crowns are detected with F1 scores of 0.76 and 0.79, respectively, using a convolutional neural network (CNN) instance segmentation model. An example of CNN model transference between images is presented, emphasizing the limitation and practical application of this approach. A method is presented to optimize precision and recall using the confidence of the detection features; this results in a decrease of 45% and 31% in false positive detections, with a moderate increase in false negative detections. The sensitivity of the CNN model to the size of the training set is evaluated, showing that comparable metrics could be achieved with approximately 50% of the samples used in this study. Finally, the diameter of the palm crown is calculated based on the polygon identified by mask detection, resulting in an average of 7.83 m, a standard deviation of 1.05 m, and a range of {4.62, 13.90} m for the GeoEye-1 image. Similarly, for the WorldView-2 image, the average diameter is 8.08 m, with a standard deviation of 0.70 m and a range of {4.82, 15.80} m. 

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2. 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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3. Dense Transformer Networks for Brain Electron Microscopy Image Segmentation

   https://doi.org/10.24963/ijcai.2019/401  

   Li, Jun; Chen, Yongjun; Cai, Lei; Davidson, Ian; Ji, Shuiwang (August 2019, Proceedings of the 28th International Joint Conference on Artificial Intelligence)

   The key idea of current deep learning methods for dense prediction is to apply a model on a regular patch centered on each pixel to make pixel-wise predictions. These methods are limited in the sense that the patches are determined by network architecture instead of learned from data. In this work, we propose the dense transformer networks, which can learn the shapes and sizes of patches from data. The dense transformer networks employ an encoder-decoder architecture, and a pair of dense transformer modules are inserted into each of the encoder and decoder paths. The novelty of this work is that we provide technical solutions for learning the shapes and sizes of patches from data and efficiently restoring the spatial correspondence required for dense prediction. The proposed dense transformer modules are differentiable, thus the entire network can be trained. We apply the proposed networks on biological image segmentation tasks and show superior performance is achieved in comparison to baseline methods. 

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4. A Big Data Approach for the Regional-Scale Spatial Pattern Analysis of Amazonian Palm Locations

   https://doi.org/10.3390/rs17050784  

   Drouillard, Matthew J; Cummings, Anthony R (March 2025, Remote Sensing)

   Arecaceae (palms) are an important resource for indigenous communities as well as fauna populations across Amazonia. Understanding the spatial patterns and the environmental factors that determine the habitats of palms is of considerable interest to rainforest ecologists. Here, we utilize remotely sensed imagery in conjunction with topography and soil attribute data and employ a generalized cluster identification algorithm, Hierarchical Density-Based Spatial Clustering of Applications with Noise (HDBSCAN), to study the underlying patterns of palms in two areas of Guyana, South America. The results of the HDBSCAN assessment were cross-validated with several point pattern analysis methods commonly used by ecologists (the quadrat test for complete spatial randomness, Morista Index, Ripley’s L-function, and the pair correlation function). A spatial logistic regression model was generated to understand the multivariate environmental influences driving the placement of cluster and outlier palms. Our results showed that palms are strongly clustered in the areas of interest and that the HDBSCAN’s clustering output correlates well with traditional analytical methods. The environmental factors influencing palm clusters or outliers, as determined by logistic regression, exhibit qualitative similarities to those identified in conventional ground-based palm surveys. These findings are promising for prospective research aiming to integrate remote flora identification techniques with traditional data collection studies. 

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5. Fine-Scale (10 m) Dynamics of Smallholder Farming through COVID-19 in Eastern Thailand

   https://doi.org/10.3390/rs16061035  

   Chen, Gang; Hammelman, Colleen; Anantsuksomsri, Sutee; Tontisirin, Nij; Todd, Amelia R.; Hicks, William W.; Robinson, Harris M.; Calloway, Miles G.; Bell, Grace M.; Kinsey, John E. (March 2024, Remote Sensing)

   This study aims to understand the spatiotemporal changes in patterns of tropical crop cultivation in Eastern Thailand, encompassing the periods before, during, and after the COVID-19 pandemic. Our approach involved assessing the efficacy of high-resolution (10 m) Sentinel-2 dense image time series for mapping smallholder farmlands. We integrated harmonic regression and random forest to map a diverse array of tropical crop types between summer 2017 and summer 2023, including durian, rice, rubber, eucalyptus, oil palm, pineapple, sugarcane, cassava, mangosteen, coconut, and other crops. The results revealed an overall mapping accuracy of 85.6%, with several crop types exceeding 90%. High-resolution imagery demonstrated particular effectiveness in situations involving intercropping, a popular practice of simultaneously growing two or more plant species in the same patch of land. However, we observed overestimation in the majority of the studied cash crops, primarily those located in young plantations with open tree canopies and grass-covered ground surfaces. The adverse effects of the COVID-19 pandemic were observed in specific labor-intensive crops, including rubber and durian, but were limited to the short term. No discernible impact was noted across the entirety of the study timeframe. In comparison, financial gain and climate change appeared to be more pivotal in influencing farmers’ decisions regarding crop cultivation. Traditionally dominant crops such as rice and oil palm have witnessed a discernible decline in cultivation, reflecting a decade-long trend of price drops preceding the pandemic. Conversely, Thai durian has seen a significant upswing even over the pandemic, which ironically served as a catalyst prompting Thai farmers to adopt e-commerce to meet the surging demand, particularly from China. 

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