VIAF

Virtual International Authority File

Search

Leader 00000nz a2200037n 45 0
001 WKP|Q99943190 (VIAF cluster) (Authority/Source Record)
003 WKP
005 20241121000252.0
008 241121nneanz||abbn n and d
035 ‎‡a (WKP)Q99943190‏
024 ‎‡a 0000-0002-1557-3624‏ ‎‡2 orcid‏
035 ‎‡a (OCoLC)Q99943190‏
100 0 ‎‡a ক্রিস ই জর্ডান‏ ‎‡9 bn‏
375 ‎‡a 1‏ ‎‡2 iso5218‏
400 0 ‎‡a Chris E. Jordan‏ ‎‡c researcher 0000-0002-1557-3624‏ ‎‡9 en‏
400 0 ‎‡a Chris E. Jordan‏ ‎‡c wetenschapper‏ ‎‡9 nl‏
670 ‎‡a Author's A Comparison of the Performance and Compatibility of Protocols Used by Seven Monitoring Groups to Measure Stream Habitat in the Pacific Northwest‏
670 ‎‡a Author's A geomorphic assessment to inform strategic stream restoration planning in the Middle Fork John Day Watershed, Oregon, USA‏
670 ‎‡a Author's A methodological intercomparison of topographic survey techniques for characterizing wadeable streams and rivers‏
670 ‎‡a Author's Alteration of stream temperature by natural and artificial beaver dams.‏
670 ‎‡a Author's An Assessment of the Geographic Closure Assumption in Mark–Recapture Abundance Estimates of Anadromous Steelhead Populations‏
670 ‎‡a Author's Applying time series models with spatial correlation to identify the scale of variation in habitat metrics related to threatened coho salmon‏
670 ‎‡a Author's Applying time series models with spatial correlation to identify the scale of variation in habitat metrics related to threatened coho salmon (Oncorhynchus kisutch) in the Pacific Northwest‏
670 ‎‡a Author's Beaver: The North American freshwater climate action plan‏
670 ‎‡a Author's Beyond sticks and stones: Integrating physical and ecological conditions into watershed restoration assessments using a food web modeling approach‏
670 ‎‡a Author's Climate vulnerability assessment for Pacific salmon and steelhead in the California Current Large Marine Ecosystem‏
670 ‎‡a Author's Corrigendum: Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead‏
670 ‎‡a Author's Corrigendum: Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead (Oncorhynchus mykiss).‏
670 ‎‡a Author's Crew variability in topographic surveys for monitoring wadeable streams: a case study from the Columbia River Basin‏
670 ‎‡a Author's Cyberinfrastructure Usage Modalities on the TeraGrid‏
670 ‎‡a Author's Design and monitoring of woody structures and their benefits to juvenile steelhead (Oncorhynchus mykiss) using a net rate of energy intake model‏
670 ‎‡a Author's Developing an Effective Model for Predicting Spatially and Temporally Continuous Stream Temperatures from Remotely Sensed Land Surface Temperatures‏
670 ‎‡a Author's Ecological and evolutionary patterns of freshwater maturation in Pacific and Atlantic salmonines‏
670 ‎‡a Author's Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead‏
670 ‎‡a Author's Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead (Oncorhynchus mykiss)‏
670 ‎‡a Author's Erratum to: Ecological and evolutionary patterns of freshwater maturation in Pacific and Atlantic salmonines‏
670 ‎‡a Author's Evaluating impacts using a BACI design, ratios, and a Bayesian approach with a focus on restoration‏
670 ‎‡a Author's Evaluation of dryland riparian restoration with cottonwood and willow using deep-planting and herbivore protection‏
670 ‎‡a Author's Geomorphic changes upstream of beaver dams in Bridge Creek, an incised stream channel in the interior Columbia River basin, eastern Oregon‏
670 ‎‡a Author's How do we efficiently generate high-resolution hydraulic models at large numbers of riverine reaches?‏
670 ‎‡a Author's Impacts of beaver dams on riverscape burn severity during megafires in the Rocky Mountain region, western United States‏
670 ‎‡a Author's Is habitat restoration targeting relevant ecological needs for endangered species? Using Pacific Salmon as a case study‏
670 ‎‡a Author's Linking models across scales to assess the viability and restoration potential of a threatened population of steelhead ( Oncorhynchus mykiss ) in the Middle Fork John Day River, Oregon, USA‏
670 ‎‡a Author's Modelling dendritic ecological networks in space: an integrated network perspective‏
670 ‎‡a Author's Progress and Challenges of Testing the Effectiveness of Stream Restoration in the Pacific Northwest Using Intensively Monitored Watersheds‏
670 ‎‡a Author's TeraGrid's integrated information service‏
670 ‎‡a Author's The importance of warm habitat to the growth regime of cold-water fishes‏
670 ‎‡a Author's The iPlant Collaborative: Cyberinfrastructure for Plant Biology‏
670 ‎‡a Author's Upscaling site-scale ecohydraulic models to inform salmonid population-level life cycle modeling and restoration actions - Lessons from the Columbia River Basin‏
670 ‎‡a Author's Using Beaver Dams to Restore Incised Stream Ecosystems‏
670 ‎‡a Author's Using Inverse Probability Bootstrap Sampling to Eliminate Sample Induced Bias in Model Based Analysis of Unequal Probability Samples‏
670 ‎‡a Author's Variability in expression of anadromy by female Oncorhynchus mykiss within a river network‏
670 ‎‡a wikidata authority control‏ ‎‡u https://viaf.org/viaf/102146094138500330358‏
909 ‎‡a (orcid) 0000000215573624‏ ‎‡9 1‏
919 ‎‡a importanceofwarmhabitattothegrowthregimeofcoldwaterfishes‏ ‎‡A The importance of warm habitat to the growth regime of cold-water fishes‏ ‎‡9 1‏
919 ‎‡a comparisonoftheperformanceandcompatibilityofprotocolsusedby7monitoringgroupstomeasurestreamhabitatinthepacificnorthwest‏ ‎‡A A Comparison of the Performance and Compatibility of Protocols Used by Seven Monitoring Groups to Measure Stream Habitat in the Pacific Northwest‏ ‎‡9 1‏
919 ‎‡a geomorphicassessmenttoinformstrategicstreamrestorationplanninginthemiddleforkjohndaywatershedoregonusa‏ ‎‡A A geomorphic assessment to inform strategic stream restoration planning in the Middle Fork John Day Watershed, Oregon, USA‏ ‎‡9 1‏
919 ‎‡a methodologicalintercomparisonoftopographicsurveytechniquesforcharacterizingwadeablestreamsandrivers‏ ‎‡A A methodological intercomparison of topographic survey techniques for characterizing wadeable streams and rivers‏ ‎‡9 1‏
919 ‎‡a alterationofstreamtemperaturebynaturalandartificialbeaverdams‏ ‎‡A Alteration of stream temperature by natural and artificial beaver dams.‏ ‎‡9 1‏
919 ‎‡a assessmentofthegeographicclosureassumptioninmarkrecaptureabundanceestimatesofanadromoussteelheadpopulations‏ ‎‡A An Assessment of the Geographic Closure Assumption in Mark–Recapture Abundance Estimates of Anadromous Steelhead Populations‏ ‎‡9 1‏
919 ‎‡a applyingtimeseriesmodelswithspatialcorrelationtoidentifythescaleofvariationinhabitatmetricsrelatedtothreatenedcohosalmon‏ ‎‡A Applying time series models with spatial correlation to identify the scale of variation in habitat metrics related to threatened coho salmon‏ ‎‡9 1‏
919 ‎‡a applyingtimeseriesmodelswithspatialcorrelationtoidentifythescaleofvariationinhabitatmetricsrelatedtothreatenedcohosalmononcorhynchuskisutchinthepacificnorthwest‏ ‎‡A Applying time series models with spatial correlation to identify the scale of variation in habitat metrics related to threatened coho salmon (Oncorhynchus kisutch) in the Pacific Northwest‏ ‎‡9 1‏
919 ‎‡a beaverthenorthamericanfreshwaterclimateactionplan‏ ‎‡A Beaver: The North American freshwater climate action plan‏ ‎‡9 1‏
919 ‎‡a beyondsticksandstonesintegratingphysicalandecologicalconditionsintowatershedrestorationassessmentsusingafoodwebmodelingapproach‏ ‎‡A Beyond sticks and stones: Integrating physical and ecological conditions into watershed restoration assessments using a food web modeling approach‏ ‎‡9 1‏
919 ‎‡a climatevulnerabilityassessmentforpacificsalmonandsteelheadinthecaliforniacurrentlargemarineecosystem‏ ‎‡A Climate vulnerability assessment for Pacific salmon and steelhead in the California Current Large Marine Ecosystem‏ ‎‡9 1‏
919 ‎‡a corrigendumecosystemexperimentrevealsbenefitsofnaturalandsimulatedbeaverdamstoathreatenedpopulationofsteelhead‏ ‎‡A Corrigendum: Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead‏ ‎‡9 1‏
919 ‎‡a corrigendumecosystemexperimentrevealsbenefitsofnaturalandsimulatedbeaverdamstoathreatenedpopulationofsteelheadoncorhynchusmykiss‏ ‎‡A Corrigendum: Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead (Oncorhynchus mykiss).‏ ‎‡9 1‏
919 ‎‡a crewvariabilityintopographicsurveysformonitoringwadeablestreamsacasestudyfromthecolumbiariverbasin‏ ‎‡A Crew variability in topographic surveys for monitoring wadeable streams: a case study from the Columbia River Basin‏ ‎‡9 1‏
919 ‎‡a cyberinfrastructureusagemodalitiesontheteragrid‏ ‎‡A Cyberinfrastructure Usage Modalities on the TeraGrid‏ ‎‡9 1‏
919 ‎‡a designandmonitoringofwoodystructuresandtheirbenefitstojuvenilesteelheadoncorhynchusmykissusinganetrateofenergyintakemodel‏ ‎‡A Design and monitoring of woody structures and their benefits to juvenile steelhead (Oncorhynchus mykiss) using a net rate of energy intake model‏ ‎‡9 1‏
919 ‎‡a developinganeffectivemodelforpredictingspatiallyandtemporallycontinuousstreamtemperaturesfromremotelysensedlandsurfacetemperatures‏ ‎‡A Developing an Effective Model for Predicting Spatially and Temporally Continuous Stream Temperatures from Remotely Sensed Land Surface Temperatures‏ ‎‡9 1‏
919 ‎‡a ecologicalandevolutionarypatternsoffreshwatermaturationinpacificandatlanticsalmonines‏ ‎‡A Ecological and evolutionary patterns of freshwater maturation in Pacific and Atlantic salmonines‏ ‎‡9 1‏
919 ‎‡a ecosystemexperimentrevealsbenefitsofnaturalandsimulatedbeaverdamstoathreatenedpopulationofsteelhead‏ ‎‡A Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead‏ ‎‡9 1‏
919 ‎‡a ecosystemexperimentrevealsbenefitsofnaturalandsimulatedbeaverdamstoathreatenedpopulationofsteelheadoncorhynchusmykiss‏ ‎‡A Ecosystem experiment reveals benefits of natural and simulated beaver dams to a threatened population of steelhead (Oncorhynchus mykiss)‏ ‎‡9 1‏
919 ‎‡a erratumtoecologicalandevolutionarypatternsoffreshwatermaturationinpacificandatlanticsalmonines‏ ‎‡A Erratum to: Ecological and evolutionary patterns of freshwater maturation in Pacific and Atlantic salmonines‏ ‎‡9 1‏
919 ‎‡a evaluatingimpactsusingabacidesignratiosandabayesianapproachwithafocusonrestoration‏ ‎‡A Evaluating impacts using a BACI design, ratios, and a Bayesian approach with a focus on restoration‏ ‎‡9 1‏
919 ‎‡a evaluationofdrylandriparianrestorationwithcottonwoodandwillowusingdeepplantingandherbivoreprotection‏ ‎‡A Evaluation of dryland riparian restoration with cottonwood and willow using deep-planting and herbivore protection‏ ‎‡9 1‏
919 ‎‡a geomorphicchangesupstreamofbeaverdamsinbridgecreekanincisedstreamchannelintheinteriorcolumbiariverbasineasternoregon‏ ‎‡A Geomorphic changes upstream of beaver dams in Bridge Creek, an incised stream channel in the interior Columbia River basin, eastern Oregon‏ ‎‡9 1‏
919 ‎‡a howdoweefficientlygeneratehighresolutionhydraulicmodelsatlargenumbersofriverinereaches‏ ‎‡A How do we efficiently generate high-resolution hydraulic models at large numbers of riverine reaches?‏ ‎‡9 1‏
919 ‎‡a impactsofbeaverdamsonriverscapeburnseverityduringmegafiresintherockymountainregionwesternunitedstates‏ ‎‡A Impacts of beaver dams on riverscape burn severity during megafires in the Rocky Mountain region, western United States‏ ‎‡9 1‏
919 ‎‡a ishabitatrestorationtargetingrelevantecologicalneedsforendangeredspeciesusingpacificsalmonasacasestudy‏ ‎‡A Is habitat restoration targeting relevant ecological needs for endangered species? Using Pacific Salmon as a case study‏ ‎‡9 1‏
919 ‎‡a linkingmodelsacrossscalestoassesstheviabilityandrestorationpotentialofathreatenedpopulationofsteelheadoncorhynchusmykissinthemiddleforkjohndayriveroregonusa‏ ‎‡A Linking models across scales to assess the viability and restoration potential of a threatened population of steelhead ( Oncorhynchus mykiss ) in the Middle Fork John Day River, Oregon, USA‏ ‎‡9 1‏
919 ‎‡a modellingdendriticecologicalnetworksinspaceanintegratednetworkperspective‏ ‎‡A Modelling dendritic ecological networks in space: an integrated network perspective‏ ‎‡9 1‏
919 ‎‡a progressandchallengesoftestingtheeffectivenessofstreamrestorationinthepacificnorthwestusingintensivelymonitoredwatersheds‏ ‎‡A Progress and Challenges of Testing the Effectiveness of Stream Restoration in the Pacific Northwest Using Intensively Monitored Watersheds‏ ‎‡9 1‏
919 ‎‡a teragridsintegratedinformationservice‏ ‎‡A TeraGrid's integrated information service‏ ‎‡9 1‏
919 ‎‡a iplantcollaborativecyberinfrastructureforplantbiology‏ ‎‡A The iPlant Collaborative: Cyberinfrastructure for Plant Biology‏ ‎‡9 1‏
919 ‎‡a upscalingsitescaleecohydraulicmodelstoinformsalmonidpopulationlevellifecyclemodelingandrestorationactionslessonsfromthecolumbiariverbasin‏ ‎‡A Upscaling site-scale ecohydraulic models to inform salmonid population-level life cycle modeling and restoration actions - Lessons from the Columbia River Basin‏ ‎‡9 1‏
919 ‎‡a usingbeaverdamstorestoreincisedstreamecosystems‏ ‎‡A Using Beaver Dams to Restore Incised Stream Ecosystems‏ ‎‡9 1‏
919 ‎‡a usinginverseprobabilitybootstrapsamplingtoeliminatesampleinducedbiasinmodelbasedanalysisofunequalprobabilitysamples‏ ‎‡A Using Inverse Probability Bootstrap Sampling to Eliminate Sample Induced Bias in Model Based Analysis of Unequal Probability Samples‏ ‎‡9 1‏
919 ‎‡a variabilityinexpressionofanadromybyfemaleoncorhynchusmykisswithinarivernetwork‏ ‎‡A Variability in expression of anadromy by female Oncorhynchus mykiss within a river network‏ ‎‡9 1‏
946 ‎‡a b‏ ‎‡9 1‏
996 ‎‡2 ISNI|0000000063924439
996 ‎‡2 CAOONL|ncf11526393
996 ‎‡2 RERO|A003430633
996 ‎‡2 RERO|A003430647
996 ‎‡2 ISNI|000000001956013X
996 ‎‡2 SUDOC|196449960
996 ‎‡2 DNB|1025264746
996 ‎‡2 DNB|133065693
996 ‎‡2 ISNI|0000000107857152
996 ‎‡2 LC|nb 90864043
996 ‎‡2 BNC|981058527744606706
996 ‎‡2 LIH|LNB:CX52;=0L
996 ‎‡2 DBC|87097961466525
996 ‎‡2 DNB|1157340431
996 ‎‡2 BIBSYS|90288745
996 ‎‡2 BNF|14685035
996 ‎‡2 LC|nb2014003245
996 ‎‡2 DNB|1148325409
996 ‎‡2 ISNI|0000000055480778
996 ‎‡2 LC|n 2004036574
996 ‎‡2 J9U|987007341746105171
996 ‎‡2 LC|no2001088262
996 ‎‡2 DNB|124684769
996 ‎‡2 DNB|132456087
996 ‎‡2 LC|n 2006061952
996 ‎‡2 ISNI|0000000112613953
996 ‎‡2 LC|nb2011029711
996 ‎‡2 NUKAT|n 2019000665
996 ‎‡2 LC|n 2006036133
996 ‎‡2 BIBSYS|90687201
996 ‎‡2 LC|n 94122000
996 ‎‡2 J9U|987012488675205171
996 ‎‡2 CAOONL|ncf10591362
996 ‎‡2 DNB|1242056440
996 ‎‡2 BNE|XX5525711
996 ‎‡2 DNB|1268031518
996 ‎‡2 LC|n 2011002718
996 ‎‡2 NSK|000095432
996 ‎‡2 J9U|987007439120805171
996 ‎‡2 LC|nb 99135326
996 ‎‡2 SUDOC|083009221
996 ‎‡2 ISNI|0000000039189307
996 ‎‡2 LC|n 87933725
996 ‎‡2 BIBSYS|9011678
996 ‎‡2 ISNI|0000000028335532
996 ‎‡2 J9U|987007330834105171
996 ‎‡2 ISNI|0000000022623568
996 ‎‡2 BNF|14191283
996 ‎‡2 NUKAT|n 2009703212
996 ‎‡2 N6I|vtls001336293
996 ‎‡2 ISNI|0000000016201772
996 ‎‡2 NTA|079963552
996 ‎‡2 DNB|1325642983
996 ‎‡2 DNB|1208407880
996 ‎‡2 NII|DA05686940
996 ‎‡2 BIBSYS|2106862
996 ‎‡2 DNB|1202349072
996 ‎‡2 DNB|117177156
996 ‎‡2 NDL|00469117
996 ‎‡2 LC|n 88297358
996 ‎‡2 LC|nb2001079753
996 ‎‡2 LC|nb2023016678
996 ‎‡2 SUDOC|232775885
996 ‎‡2 RERO|A003430748
996 ‎‡2 ISNI|0000000031262143
996 ‎‡2 ISNI|0000000073184155
996 ‎‡2 LC|n 2009044716
996 ‎‡2 NII|DA03402022
996 ‎‡2 BNF|15006990
996 ‎‡2 DNB|1302487590
996 ‎‡2 DNB|124866085
996 ‎‡2 LC|nb2003065509
996 ‎‡2 BNF|15557565
996 ‎‡2 LC|n 00120230
996 ‎‡2 DNB|101743302X
996 ‎‡2 LC|n 91020715
996 ‎‡2 J9U|987007356619505171
996 ‎‡2 NUKAT|n 99027859
996 ‎‡2 ISNI|0000000077853395
996 ‎‡2 ISNI|0000000084091704
996 ‎‡2 BIBSYS|90508269
996 ‎‡2 CAOONL|ncf10438642
996 ‎‡2 LC|n 2002041279
996 ‎‡2 DNB|121219550
996 ‎‡2 ISNI|0000000029873156
996 ‎‡2 ISNI|0000000041598695
996 ‎‡2 J9U|987007318752005171
996 ‎‡2 DNB|111062624
996 ‎‡2 J9U|987007317896205171
996 ‎‡2 ISNI|0000000066715536
996 ‎‡2 LC|nb2017009362
996 ‎‡2 DNB|1146275889
996 ‎‡2 ISNI|0000000038000672
996 ‎‡2 ISNI|0000000021819331
996 ‎‡2 DNB|14154094X
996 ‎‡2 SUDOC|267673671
996 ‎‡2 CAOONL|ncf10591934
996 ‎‡2 SUDOC|19980091X
996 ‎‡2 SUDOC|249450003
996 ‎‡2 ISNI|0000000114599606
996 ‎‡2 BIBSYS|90516534
996 ‎‡2 J9U|987007326549405171
996 ‎‡2 NKC|mzk2004258486
996 ‎‡2 DNB|136277268
996 ‎‡2 LC|n 86078639
996 ‎‡2 ISNI|0000000017706318
996 ‎‡2 ISNI|000000011495150X
996 ‎‡2 NTA|07279223X
996 ‎‡2 RERO|A012002532
996 ‎‡2 RERO|A003430646
996 ‎‡2 RERO|A003430648
996 ‎‡2 ISNI|0000000031649305
996 ‎‡2 RERO|A012410196
996 ‎‡2 DNB|132674475
996 ‎‡2 ISNI|0000000452935211
996 ‎‡2 DBC|87097968516161
996 ‎‡2 NII|DA09096552
996 ‎‡2 NTA|374766010
996 ‎‡2 CAOONL|ncf11719060
996 ‎‡2 LC|no2016124848
996 ‎‡2 ISNI|0000000043459656
996 ‎‡2 ISNI|000000036390881X
996 ‎‡2 BIBSYS|6042482
996 ‎‡2 DNB|1054879443
996 ‎‡2 J9U|987007338540605171
996 ‎‡2 LC|n 2022013524
996 ‎‡2 LNB|LNC10-000035449
996 ‎‡2 LC|no2014031097
996 ‎‡2 BIBSYS|10103881
996 ‎‡2 W2Z|5065649
996 ‎‡2 ISNI|000000007413829X
996 ‎‡2 ISNI|0000000385516454
996 ‎‡2 DNB|1082522368
996 ‎‡2 NUKAT|n 2002055179
996 ‎‡2 DNB|122319796
996 ‎‡2 LC|n 88653010
996 ‎‡2 LC|n 85277578
996 ‎‡2 DNB|127498677X
996 ‎‡2 ISNI|0000000369058713
996 ‎‡2 NTA|303130075
996 ‎‡2 DNB|134572920
996 ‎‡2 LC|n 50038357
996 ‎‡2 BIBSYS|5065649
996 ‎‡2 SUDOC|174788231
996 ‎‡2 LC|n 94086921
996 ‎‡2 RERO|A003273871
996 ‎‡2 LC|nb2017009359
996 ‎‡2 LC|n 77017310
996 ‎‡2 ISNI|0000000122817407
996 ‎‡2 CAOONL|ncf10582322
996 ‎‡2 BNE|XX982753
996 ‎‡2 DNB|132935872
996 ‎‡2 ISNI|0000000442611766
996 ‎‡2 LC|no2015158056
996 ‎‡2 DNB|1121311903
996 ‎‡2 JPG|500128688
996 ‎‡2 DNB|1060212072
996 ‎‡2 DNB|1279208236
996 ‎‡2 DNB|1160959439
996 ‎‡2 DNB|173718647
996 ‎‡2 LC|no2016045880
996 ‎‡2 PLWABN|9810672280305606
997 ‎‡a 0 0 lived 0 0‏ ‎‡9 1‏
998 ‎‡a Jordan, Chris E.‏ ‎‡2 LC|no2016045880‏ ‎‡3 viafid‏