Search results for "types and species"

showing 3 items of 3 documents

Do the ecological drivers of lake littoral communities match and lead to congruence between organism groups?

2020

AbstractLake littoral environments are heterogeneous, and different organisms typically show specific responses to this environmental variation. We examined local environmental and spatial factors affecting lake littoral biodiversity and the structuring of assemblages of phytoplankton, zooplankton and macroinvertebrates within and among three basins of a large lake system. We explored congruence of species composition and species richness among the studied organism groups to evaluate their general indicator potential to represent spatial variation in other groups. We expected that effects of water chemistry on plankton assemblages were stronger than effects of habitat characteristics. In co…

0106 biological sciencesBiodiversityhabitatcommunity structuringhabitaattiAquatic Scienceassemblages010603 evolutionary biology01 natural sciencesZooplanktonwater qualitybiotic communitiesdiversitydiatomsPhytoplanktonlakesLittoral zonezoobenthos14. Life underwaterspecies richnessEcology Evolution Behavior and Systematicsbiodiversitynatural diversityEcology010604 marine biology & hydrobiologycongruenceplanktonenvironmental filteringtypes and specieseliöyhteisöt15. Life on landPlanktonselkärangattomatluonnon monimuotoisuusbiodiversiteettiGeographyHabitatBenthic zoneSpecies richnessrantavyöhykkeetlake littoral zonespatial processes
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Automatic image-based identification and biomass estimation of invertebrates

2020

1. Understanding how biological communities respond to environmental changes is a key challenge in ecology and ecosystem management. The apparent decline of insect populations necessitates more biomonitoring but the time-consuming sorting and expert-based identification of taxa pose strong limitations on how many insect samples can be processed. In turn, this affects the scale of efforts to map and monitor invertebrate diversity altogether. Given recent advances in computer vision, we propose to enhance the standard human expert-based identification approach involving manual sorting and identification with an automatic image-based technology. 2. We describe a robot-enabled image-based ident…

FOS: Computer and information sciences0106 biological sciencesclassification (action)Computer Science - Machine Learninghahmontunnistus (tietotekniikka)Computer scienceImage qualityComputer Vision and Pattern Recognition (cs.CV)Computer Science - Computer Vision and Pattern Recognitionclassificationsmodelling (creation related to information)neuroverkot01 natural sciencesConvolutional neural networkcomputer visionMachine Learning (cs.LG)remote sensingAbundance (ecology)Statistics - Machine Learningkonenäköinsectstunnistaminenbiodiversitysystematiikka (biologia)Ecological ModelingSortingselkärangattomatneural networksmuutosjohtaminenautomated pattern recognitionIdentification (information)machine learningkoneoppiminenclassificationEcosystem managementhämähäkitrecognitionmallintaminenneural networks (information technology)Machine Learning (stat.ML)010603 evolutionary biologyspidersidentifiointilajitsystematicsluokituksetEcology Evolution Behavior and Systematicsluokitus (toiminta)tarkkuusbusiness.industry010604 marine biology & hydrobiologyDeep learningPattern recognitiontypes and speciesidentification (recognition)15. Life on land113 Computer and information sciencesecosystems (ecology)invertebratesbiodiversiteettiekosysteemit (ekologia)hyönteisetidentificationprecisionkaukokartoitusArtificial intelligencechange management (leadership)businessScale (map)
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Niche position drives interspecific variation in occupancy and abundance in a highly-connected lake system

2019

Highlights • We studied interspecific variation in occupancy and abundance of freshwater species. • Occupancy and abundance correlated positively for both diatoms and macroinvertebrates. • Niche position had clearest effects on variation in occupancy and abundance. • The more marginal the niche position, the rarer a species is. We examined how niche position, niche breadth, biological traits and taxonomic relatedness affect interspecific variation in occupancy and abundance of two commonly-used biological indicator groups, i.e. diatoms and macroinvertebrates. We studied 291 diatom and 103 macroinvertebrate species that occupied the littoral zones of a large (305 km2) highly-connected freshw…

sijainti0106 biological sciencesOccupancyNichemacroinvertebratesspecieshabitatGeneral Decision Sciences010501 environmental sciencesjärvet010603 evolutionary biology01 natural sciencesdiatomsbiologiset ominaisuudettaxonomytraitsAbundance (ecology)lakesLittoral zonepiilevätvaihteluecological nichelajitsystematicsEcology Evolution Behavior and Systematics0105 earth and related environmental sciencesInvertebrateEcologybiologyEcologysystematiikka (biologia)niche parameterstypes and speciesesiintyminenInterspecific competitionselkärangattomatbiology.organism_classificationbiological traitsekologiaekologinen lokeroominaisuudetEcological indicatortaxonomic relationshipsDiatomta1181locationEcological Indicators
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