|InVEST+ VERSION+ User’s guide. The natural capital project|
R Sharp, HT Tallis, T Ricketts, AD Guerry, SA Wood, R Chaplin-Kramer, ...
Stanford university, university of Minnesota, the nature conservancy, and …, 2016
|Understanding, management and modelling of urban hydrology and its consequences for receiving waters: A state of the art|
TD Fletcher, H Andrieu, P Hamel
Advances in water resources 51, 261-279, 2013
|Working together: a call for inclusive conservation|
H Tallis, J Lubchenco
Nature 515 (7525), 27-28, 2014
|Social-ecological and technological factors moderate the value of urban nature|
BL Keeler, P Hamel, T McPhearson, MH Hamann, ML Donahue, ...
Nature Sustainability 2 (1), 29-38, 2019
|Source-control stormwater management for mitigating the impacts of urbanisation on baseflow: A review|
P Hamel, E Daly, TD Fletcher
Journal of Hydrology 485, 201-211, 2013
|Global modeling of nature’s contributions to people|
R Chaplin-Kramer, RP Sharp, C Weil, EM Bennett, U Pascual, KK Arkema, ...
Science 366 (6462), 255-258, 2019
|A new approach to modeling the sediment retention service (InVEST 3.0): Case study of the Cape Fear catchment, North Carolina, USA|
P Hamel, R Chaplin-Kramer, S Sim, C Mueller
Science of the Total Environment 524, 166-177, 2015
|Incorporating climate change into ecosystem service assessments and decisions: a review|
RK Runting, BA Bryan, LE Dee, FJF Maseyk, L Mandle, P Hamel, ...
Global change biology 23 (1), 28-41, 2017
|Ecosystem services: Challenges and opportunities for hydrologic modeling to support decision making|
AJ Guswa, KA Brauman, C Brown, P Hamel, BL Keeler, SS Sayre
Water Resources Research 50 (5), 4535-4544, 2014
|Uncertainty assessment in ecosystem services analyses: seven challenges and practical responses|
P Hamel, BP Bryant
Ecosystem services 24, 1-15, 2017
|Will it rise or will it fall? Managing the complex effects of urbanization on base flow|
AS Bhaskar, L Beesley, MJ Burns, TD Fletcher, P Hamel, CE Oldham, ...
Freshwater Science 35 (1), 293-310, 2016
|National scale evaluation of the InVEST nutrient retention model in the United Kingdom|
JW Redhead, L May, TH Oliver, P Hamel, R Sharp, JM Bullock
Science of the Total Environment 610, 666-677, 2018
|Uncertainty analysis of a spatially explicit annual water-balance model: Case study of the Cape Fear basin, North Carolina|
P Hamel, AJ Guswa
Hydrology and Earth System Sciences 19 (2), 839-853, 2015
|Optimizing land use decision-making to sustain Brazilian agricultural profits, biodiversity and ecosystem services|
CM Kennedy, PL Hawthorne, DA Miteva, L Baumgarten, K Sochi, ...
Biological Conservation 204, 221-230, 2016
|Life cycle assessment needs predictive spatial modelling for biodiversity and ecosystem services|
R Chaplin-Kramer, S Sim, P Hamel, B Bryant, R Noe, C Mueller, ...
Nature communications 8 (1), 1-8, 2017
|Sediment delivery modeling in practice: Comparing the effects of watershed characteristics and data resolution across hydroclimatic regions|
P Hamel, K Falinski, R Sharp, DA Auerbach, M Sánchez-Canales, ...
Science of the Total Environment 580, 1381-1388, 2017
|An ecosystem service perspective on urban nature, physical activity, and health|
RP Remme, H Frumkin, AD Guerry, AC King, L Mandle, C Sarabu, ...
Proceedings of the National Academy of Sciences 118 (22), e2018472118, 2021
|Supply and demand assessment of urban recreation service and its implication for greenspace planning-A case study on Guangzhou|
H Liu, RP Remme, P Hamel, H Nong, H Ren
Landscape and Urban Planning 203, 103898, 2020
|Sensitivity analysis of a sediment dynamics model applied in a Mediterranean river basin: Global change and management implications|
M Sánchez-Canales, A López-Benito, V Acuña, G Ziv, P Hamel, ...
Science of the Total Environment 502, 602-610, 2015
|Landscape configuration is the primary driver of impacts on water quality associated with agricultural expansion|
R Chaplin-Kramer, P Hamel, R Sharp, V Kowal, S Wolny, S Sim, ...
Environmental Research Letters 11 (7), 074012, 2016