LTAR Archbold - University of Florida Phenocam archboldwet
NAL Geospatial Catalog
Phenocam overlooking a wetland dominated by Juncus effuses and Panicum hemitomon, Archbold's Buck Island Ranch, Florida. Tracking seasonal changes in greenness in the wetland. Takes RGB and IR photographs daily (every half hour between 6am and 8 pm) and sends them to phenocam network server at https://phenocam.sr.unh.edu/webcam/ where images are available to the public for downloads and processing.
LTAR Archbold - University of Florida Phenocam archboldpnotx
NAL Geospatial Catalog
Phenocam overlooking Paspalum notatum – dominated field, Archbold's Buck Island Ranch, Florida. Tracking seasonal changes in greenness of a semi-native pasture, a third of which is burned annually, another one-third is burned in the subsequent year and so on. Takes RGB and IR photographs daily (every half hour between 6am and 8 pm) and sends them to phenocam network server at https://phenocam.sr.unh.edu/webcam/ where images are available to the public for downloads and processing.
LTAR Archbold - University of Florida Phenocam archboldavir
NAL Geospatial Catalog
Phenocam overlooking A. virginicus Field, Archbold's Buck Island Ranch, Florida. Tracking seasonal changes in greenness of a semi-native pasture entirely burned once every three years. Takes RGB and IR photographs daily (every half hour between 6am and 8 pm) and sends them to phenocam network server at https://phenocam.sr.unh.edu/webcam/ where images are available to the public for downloads and processing.
LTAR Archbold - University of Florida Phenocam archboldbahia
NAL Geospatial Catalog
Phenocam overlooking a pasture dominated by Paspalum notatum, Archbold's Buck Island Ranch, Florida. Tracking seasonal changes in greenness in the pasture. Takes RGB and IR photographs daily (every half hour between 6am and 8 pm) and sends them to phenocam network server at https://phenocam.sr.unh.edu/webcam/ where images are available to the public for downloads and processing.
LTAR Archbold-University of Florida Phenocam ufona
NAL Geospatial Catalog
Phenocam overlooking palmetto (Serenoa repens) flatwoods at the University of Florida Range Cattle Research and Education Center, Ona. Tracking seasonal changes in greenness. Takes RGB and IR photographs daily (every half hour between 6am and 8 pm) and sends them to phenocam network server at https://phenocam.sr.unh.edu/webcam/ where images are available to the public for downloads and processing.
LTAR Archbold - University of Florida Phenocam archboldavirx
NAL Geospatial Catalog
Phenocam overlooking Schizachyrium rhizomatum – dominated field, Archbold's Buck Island Ranch, Florida. Tracking seasonal changes in greenness of a semi-native pasture, a third of which is burned annually, another one-third is burned in the subsequent year and so on. Takes RGB and IR photographs daily (every half hour between 6am and 8 pm) and sends them to phenocam network server at https://phenocam.sr.unh.edu/webcam/ where images are available to the public for downloads and processing.
Data from: Key molecular processes of the diapause to post‐diapause quiescence transition in the alfalfa leafcutting bee Megachile rotundata identified by comparative transcriptome analysis
Insect diapause (dormancy) synchronizes an insect's life cycle to seasonal changes in the abiotic and biotic resources required for development and reproduction. Transcription analysis of diapause to post‐diapause quiescent transition in the alfalfa leafcutting bee *Megachile rotundata* Fabricius identifies 643 post‐diapause up‐regulated gene transcripts and 242 post‐diapause down‐regulated transcripts. The log2 fold change in gene expression levels ranges from −5 to 7. Transcripts from several pivotal diapause‐related processes, including chromatin remodelling, cellular signalling pathways, microRNA processing, anaerobic glycolysis, cell cycle arrest and neuroendocrine control, are identified as being differentially expressed during the diapause to post‐diapause transition. In conjunction with studies from other insect species, the data indicate that there are several common mechanisms of diapause control and maintenance.
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