about
Fate of allochthonous dissolved organic carbon in lakes: a quantitative approachDiel Surface Temperature Range Scales with Lake SizeA global database of lake surface temperatures collected by in situ and satellite methods from 1985-2009.Emerging challenges for the drinking water industry.Hindcasting cyanobacterial communities in Lake Okaro with germination experiments and genetic analyses.Eco-physiological adaptations that favour freshwater cyanobacteria in a changing climate.Effects of local climate and hydrological conditions on the thermal regime of a reservoir at Tropic of Cancer, in southern China.High levels of structural diversity observed in microcystins from Microcystis CAWBG11 and characterization of six new microcystin congeners.The effect of cyanobacterial biomass enrichment by centrifugation and GF/C filtration on subsequent microcystin measurementApplication of a three-dimensional water quality model as a decision support tool for the management of land-use changes in the catchment of an oligotrophic lake.Empirical and semi-analytical chlorophyll a algorithms for multi-temporal monitoring of New Zealand lakes using Landsat.Structural characterization of new microcystins containing tryptophan and oxidized tryptophan residues.Further characterization of glycine-containing microcystins from the McMurdo dry Valleys of Antarctica.Temporal and spatial trends in water quality of Lake Taihu, China: analysis from a north to mid-lake transect, 1991-2011.Switching toxin production on and off: intermittent microcystin synthesis in a Microcystis bloom.Enhanced sample preparation for quantitation of microcystins by matrix-assisted laser desorption/ionisation-time of flight mass spectrometry.Modelling interactive effects of multiple disturbances on a coastal lake ecosystem: Implications for management.Sensor manufacturer, temperature, and cyanobacteria morphology affect phycocyanin fluorescence measurements.A novel Eulerian approach for modelling cyanobacteria movement: Thin layer formation and recurrent risk to drinking water intakes.Geo-engineering in lakes: a crisis of confidence?Ecosystem respiration: Drivers of daily variability and background respiration in lakes around the globeRapid and highly variable warming of lake surface waters around the globeLake Restoration in New ZealandControlling the indirect effects of flow diversions on water quality in an Australian reservoirA community-based framework for aquatic ecosystem modelsChallenges and opportunities for integrating lake ecosystem modelling approachesAdvancing projections of phytoplankton responses to climate change through ensemble modellingLatitude and lake size are important predictors of over-lake atmospheric stabilityLake-size dependency of wind shear and convection as controls on gas exchangeTime-scale dependence in numerical simulations: Assessment of physical, chemical, and biological predictions in a stratified lake at temporal scales of hours to monthsIsolation and structure determination of two new hydrophobic microcystins from Microcystis sp. (CAWBG11)Vertical distributions of chlorophyll in deep, warm monomictic lakesDisaggregation of Microcystis aeruginosa colonies under turbulent mixing: laboratory experiments in a grid-stirred tankComment on "Using groundwater age and hydrochemistry to understand sources and dynamics of nutrient contamination through the catchment into Lake Rotorua, New Zealand" by Morgenstern et al. (2015)Trends and abrupt changes in 104 years of ice cover and water temperature in a dimictic lake in response to air temperature, wind speed, and water clarity driversCoupled use of sediment phosphorus speciation and pigment composition to infer phytoplankton phenology over 700 years in a deep oligotrophic lakePhosphorus and arsenic distributions in a seasonally stratified, iron- and manganese-rich lake: microbiological and geochemical controlsGeographic and temporal variations in turbulent heat loss from lakes: A global analysis across 45 lakesA data mining approach to evaluate suitability of dissolved oxygen sensor observations for lake metabolism analysisIce cover and thermal regime in a dimictic seepage lake under climate change
P50
Q28479028-C7452081-8449-4D13-9D9F-63C2BBE9813CQ28601727-65CDBEB8-F24C-4895-B155-698B93E5AA65Q28647897-58AFF823-A8F3-429C-A2AF-58D76F402B54Q30746329-BC46ECE3-0B29-45B7-9078-77A6BB73510DQ33392375-5F89A52B-ACE0-4581-B72D-A38396FABA4EQ34118338-3F2EE564-4BA9-47C1-A411-A65BFBA2F97BQ34185061-A9FA485A-83EE-4E13-BFF1-AB776B305029Q35428374-BB616E08-E953-4AE3-8E2C-64AF86BB3015Q35575666-A060ADB6-BFD6-4684-87AB-2FE8609F4B5EQ39173567-1429DBED-518B-4422-B074-D72868A1D6EDQ40926584-3CDC20A6-8007-4674-B872-8E57898915A6Q41883248-F6C6523C-FA4E-4E95-98FF-0FF628E3BB8AQ43167590-B98136D5-7B36-45F1-8570-FE119C3C8277Q43519039-E01E77AF-913E-49BF-87F8-5A6497F8FA40Q43609675-5E84F356-885F-44BB-A4AB-EB3F57D1B573Q45255969-2A7EF262-FD6D-4314-9F83-2FA952709FC0Q46250006-3BF35D9D-D4C6-417E-941E-CA71831D3A4BQ46272877-AC82C526-924D-4DED-9588-BB3FF356ECC5Q47429082-65DC6E74-E8CA-47A1-B239-26A764D2C04BQ51417607-C306E0D8-8C9D-470A-9624-BE1935E4DF76Q54966469-8E1A8B3B-8EE6-41B5-8CC1-B9920D3C7600Q55871239-6767712D-B3D2-4E3D-9471-DF029C8E2E7AQ56382583-522C0EE4-A5E6-4E01-8DC1-97ACD311A3A6Q56675129-D51B70D9-4F25-4814-8CEB-0DCE74C30CFBQ56754875-4FB675EA-0CFA-40F3-9EE6-B8DA6E76A804Q56754887-62DCF7FE-11A2-4FE4-982D-6A5D560E7AE8Q57125548-EFFC5D4D-CE1D-40EE-BF3E-E08D8F852576Q57181385-3D8572AB-E876-40C0-A535-9EFDEC11B45AQ57181428-7B8254FC-0A50-45DE-B75D-C14FC4BB078EQ57194514-F13D37F3-CD93-45A8-8342-843E7F932F8CQ57235377-21410294-8208-492D-96B5-F080D6F53D85Q57608468-371A4DCA-FC95-48C8-959A-1A019276D1D3Q57608477-B00D19EB-321F-416C-BD7F-C03C70023C21Q57863353-4FFCB179-24D6-4352-984E-F7C431594A9AQ57863918-BFFB264A-1EA9-450E-A44D-8A79524D8E32Q57873115-3808EA77-F00A-47F6-B9E6-CD63E243B170Q57873131-E1AE1580-473F-47DC-9446-33D3B8EEE9E0Q58066607-EDECE3B0-CC99-4785-9575-A9B0852D6F65Q58066956-F5467591-6487-48A1-BEA9-11C68F467B83Q58066958-5058D1A5-B882-4348-8E2E-0BEDA563D480
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
David P. Hamilton
@ast
David P. Hamilton
@en
David P. Hamilton
@es
David P. Hamilton
@sl
type
label
David P. Hamilton
@ast
David P. Hamilton
@en
David P. Hamilton
@es
David P. Hamilton
@sl
altLabel
Hamilton DP
@en
prefLabel
David P. Hamilton
@ast
David P. Hamilton
@en
David P. Hamilton
@es
David P. Hamilton
@sl
P108
P214
P244
P1053
F-5039-2012
P106
P1153
55921875600
P21
P214
P244
nb2011026661
P2456
P31
P3829
P3835
david-hamilton10
P496
0000-0002-9341-8777
P734
P735
P7859
lccn-nb2011026661