The PeatPic project: predicting plot-scale green leaf phenology across peatlands

Scott J. Davidson; Avni Malhotra; Vincent E.J. Jassey; Maria Strack; Elena Aitova; Russell Anderson; Lindsey J. Atkinson; Janna M. Barel; Melanie Bird; Clarisse Brehier; Gillian Donaldson-Selby; Emma Duley; Joel Eklof; Elvira De Eyto; Gustaf Granath; Alanna Grant; Antonia Hartmann; Aleicia Holland; Vytas Huth; Cheristy P. Jones; Sung Ching Lee; Javier Lopatin; Alice M. Milner; Mike Peacock; Matthias Peichl; Jorge F. Perez-Quezada; Clarice R. Perryman; Amy Pickard; Helena Rautakoski; Ewen Silvester; Anna Maria Virkkala; Emma Wegener

doi:10.1088/1748-9326/ae0658

The PeatPic project: predicting plot-scale green leaf phenology across peatlands

Scott J. Davidson
, Avni Malhotra
, Vincent E.J. Jassey
, Maria Strack
, Elena Aitova
, Russell Anderson
, Lindsey J. Atkinson
, Janna M. Barel
, Melanie Bird
, Clarisse Brehier
, Gillian Donaldson-Selby
, Emma Duley
, Joel Eklof
, Elvira De Eyto
, Gustaf Granath
, Alanna Grant
, Antonia Hartmann
, Aleicia Holland
, Vytas Huth
, Cheristy P. Jones

Sung Ching Lee, Javier Lopatin, Alice M. Milner, Mike Peacock, Matthias Peichl, Jorge F. Perez-Quezada, Clarice R. Perryman, Amy Pickard, Helena Rautakoski, Ewen Silvester, Anna Maria Virkkala, Emma Wegener

Faculty of Engineering and Science

Research output: Contribution to journal › Article › peer-review

Abstract

Peatlands store approximately one-third of the world’s soil carbon (C), but their functioning is highly variable at fine spatial scales due to differences in vegetation cover and environmental conditions such as water table depth. This fine-scale heterogeneity plays a key role in carbon dynamics yet capturing it—particularly in relation to green leaf phenology (GLP)—is challenging with traditional remote sensing methods. To address this, we developed a smartphone-based methodology and community-science project called the PeatPic Project. We gathered over 3700 photographs from 27 sites across 10 countries in 2021 and 2022, representing different peatland types (bog, fen, and swamp), at 1–2 week intervals. We calculated GLP metrics, such as the data of the start of the season and end of the season, based on the red-blue-green bands from these photographs. We found that GLP metrics varied significantly across peatland types and dominant vegetation communities. Notably, peak greenness at bog sites occurring approximately 10 days later in the year compared to fen sites. Furthermore, variables relation to peatland/vegetation type and energy balance were key predictors of peatland GLP. The PeatPic Project’s readily available methodology offers low-cost opportunities for further research into peatland phenology, enabling the calculation of additional phenological indices and integration with other data types. By refining our understanding of peatland GLP, we can improve predictive C modelling and better assess the impacts of future changes on these important ecosystems.

Original language	English
Article number	114002
Journal	Environmental Research Letters
Volume	20
Issue number	11
DOIs	https://doi.org/10.1088/1748-9326/ae0658
State	Published - 1 Nov 2025

Keywords

community science
energy balance
environmental change
green leaf phenology
low cost monitoring
peatlands

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1088/1748-9326/ae0658

Cite this

Davidson, S. J., Malhotra, A., Jassey, V. E. J., Strack, M., Aitova, E., Anderson, R., Atkinson, L. J., Barel, J. M., Bird, M., Brehier, C., Donaldson-Selby, G., Duley, E., Eklof, J., De Eyto, E., Granath, G., Grant, A., Hartmann, A., Holland, A., Huth, V., ... Wegener, E. (2025). The PeatPic project: predicting plot-scale green leaf phenology across peatlands. Environmental Research Letters, 20(11), Article 114002. https://doi.org/10.1088/1748-9326/ae0658

@article{f40afd1dd07f469daa28479c453e85d7,

title = "The PeatPic project: predicting plot-scale green leaf phenology across peatlands",

abstract = "Peatlands store approximately one-third of the world{\textquoteright}s soil carbon (C), but their functioning is highly variable at fine spatial scales due to differences in vegetation cover and environmental conditions such as water table depth. This fine-scale heterogeneity plays a key role in carbon dynamics yet capturing it—particularly in relation to green leaf phenology (GLP)—is challenging with traditional remote sensing methods. To address this, we developed a smartphone-based methodology and community-science project called the PeatPic Project. We gathered over 3700 photographs from 27 sites across 10 countries in 2021 and 2022, representing different peatland types (bog, fen, and swamp), at 1–2 week intervals. We calculated GLP metrics, such as the data of the start of the season and end of the season, based on the red-blue-green bands from these photographs. We found that GLP metrics varied significantly across peatland types and dominant vegetation communities. Notably, peak greenness at bog sites occurring approximately 10 days later in the year compared to fen sites. Furthermore, variables relation to peatland/vegetation type and energy balance were key predictors of peatland GLP. The PeatPic Project{\textquoteright}s readily available methodology offers low-cost opportunities for further research into peatland phenology, enabling the calculation of additional phenological indices and integration with other data types. By refining our understanding of peatland GLP, we can improve predictive C modelling and better assess the impacts of future changes on these important ecosystems.",

keywords = "community science, energy balance, environmental change, green leaf phenology, low cost monitoring, peatlands",

author = "Davidson, \{Scott J.\} and Avni Malhotra and Jassey, \{Vincent E.J.\} and Maria Strack and Elena Aitova and Russell Anderson and Atkinson, \{Lindsey J.\} and Barel, \{Janna M.\} and Melanie Bird and Clarisse Brehier and Gillian Donaldson-Selby and Emma Duley and Joel Eklof and \{De Eyto\}, Elvira and Gustaf Granath and Alanna Grant and Antonia Hartmann and Aleicia Holland and Vytas Huth and Jones, \{Cheristy P.\} and Lee, \{Sung Ching\} and Javier Lopatin and Milner, \{Alice M.\} and Mike Peacock and Matthias Peichl and Perez-Quezada, \{Jorge F.\} and Perryman, \{Clarice R.\} and Amy Pickard and Helena Rautakoski and Ewen Silvester and Virkkala, \{Anna Maria\} and Emma Wegener",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by IOP Publishing Ltd.",

year = "2025",

month = nov,

day = "1",

doi = "10.1088/1748-9326/ae0658",

language = "English",

volume = "20",

journal = "Environmental Research Letters",

issn = "1748-9318",

publisher = "Institute of Physics",

number = "11",

}

Davidson, SJ, Malhotra, A, Jassey, VEJ, Strack, M, Aitova, E, Anderson, R, Atkinson, LJ, Barel, JM, Bird, M, Brehier, C, Donaldson-Selby, G, Duley, E, Eklof, J, De Eyto, E, Granath, G, Grant, A, Hartmann, A, Holland, A, Huth, V, Jones, CP, Lee, SC, Lopatin, J, Milner, AM, Peacock, M, Peichl, M, Perez-Quezada, JF, Perryman, CR, Pickard, A, Rautakoski, H, Silvester, E, Virkkala, AM & Wegener, E 2025, 'The PeatPic project: predicting plot-scale green leaf phenology across peatlands', Environmental Research Letters, vol. 20, no. 11, 114002. https://doi.org/10.1088/1748-9326/ae0658

TY - JOUR

T1 - The PeatPic project

T2 - predicting plot-scale green leaf phenology across peatlands

AU - Davidson, Scott J.

AU - Malhotra, Avni

AU - Jassey, Vincent E.J.

AU - Strack, Maria

AU - Aitova, Elena

AU - Anderson, Russell

AU - Atkinson, Lindsey J.

AU - Barel, Janna M.

AU - Bird, Melanie

AU - Brehier, Clarisse

AU - Donaldson-Selby, Gillian

AU - Duley, Emma

AU - Eklof, Joel

AU - De Eyto, Elvira

AU - Granath, Gustaf

AU - Grant, Alanna

AU - Hartmann, Antonia

AU - Holland, Aleicia

AU - Huth, Vytas

AU - Jones, Cheristy P.

AU - Lee, Sung Ching

AU - Lopatin, Javier

AU - Milner, Alice M.

AU - Peacock, Mike

AU - Peichl, Matthias

AU - Perez-Quezada, Jorge F.

AU - Perryman, Clarice R.

AU - Pickard, Amy

AU - Rautakoski, Helena

AU - Silvester, Ewen

AU - Virkkala, Anna Maria

AU - Wegener, Emma

PY - 2025/11/1

Y1 - 2025/11/1

N2 - Peatlands store approximately one-third of the world’s soil carbon (C), but their functioning is highly variable at fine spatial scales due to differences in vegetation cover and environmental conditions such as water table depth. This fine-scale heterogeneity plays a key role in carbon dynamics yet capturing it—particularly in relation to green leaf phenology (GLP)—is challenging with traditional remote sensing methods. To address this, we developed a smartphone-based methodology and community-science project called the PeatPic Project. We gathered over 3700 photographs from 27 sites across 10 countries in 2021 and 2022, representing different peatland types (bog, fen, and swamp), at 1–2 week intervals. We calculated GLP metrics, such as the data of the start of the season and end of the season, based on the red-blue-green bands from these photographs. We found that GLP metrics varied significantly across peatland types and dominant vegetation communities. Notably, peak greenness at bog sites occurring approximately 10 days later in the year compared to fen sites. Furthermore, variables relation to peatland/vegetation type and energy balance were key predictors of peatland GLP. The PeatPic Project’s readily available methodology offers low-cost opportunities for further research into peatland phenology, enabling the calculation of additional phenological indices and integration with other data types. By refining our understanding of peatland GLP, we can improve predictive C modelling and better assess the impacts of future changes on these important ecosystems.

AB - Peatlands store approximately one-third of the world’s soil carbon (C), but their functioning is highly variable at fine spatial scales due to differences in vegetation cover and environmental conditions such as water table depth. This fine-scale heterogeneity plays a key role in carbon dynamics yet capturing it—particularly in relation to green leaf phenology (GLP)—is challenging with traditional remote sensing methods. To address this, we developed a smartphone-based methodology and community-science project called the PeatPic Project. We gathered over 3700 photographs from 27 sites across 10 countries in 2021 and 2022, representing different peatland types (bog, fen, and swamp), at 1–2 week intervals. We calculated GLP metrics, such as the data of the start of the season and end of the season, based on the red-blue-green bands from these photographs. We found that GLP metrics varied significantly across peatland types and dominant vegetation communities. Notably, peak greenness at bog sites occurring approximately 10 days later in the year compared to fen sites. Furthermore, variables relation to peatland/vegetation type and energy balance were key predictors of peatland GLP. The PeatPic Project’s readily available methodology offers low-cost opportunities for further research into peatland phenology, enabling the calculation of additional phenological indices and integration with other data types. By refining our understanding of peatland GLP, we can improve predictive C modelling and better assess the impacts of future changes on these important ecosystems.

KW - community science

KW - energy balance

KW - environmental change

KW - green leaf phenology

KW - low cost monitoring

KW - peatlands

UR - https://www.scopus.com/pages/publications/105018467964

U2 - 10.1088/1748-9326/ae0658

DO - 10.1088/1748-9326/ae0658

M3 - Article

AN - SCOPUS:105018467964

SN - 1748-9318

VL - 20

JO - Environmental Research Letters

JF - Environmental Research Letters

IS - 11

M1 - 114002

ER -

The PeatPic project: predicting plot-scale green leaf phenology across peatlands

Abstract

Keywords

UN SDGs

Access to Document

Fingerprint

Cite this