Ten questions on indoor greening and environmental quality

Prashant Kumar; Hao Sun; Akash Biswal; Anubhav Kumar Dwivedi; Ho Yin Wickson Cheung; Kamaldeep Bhui; Tijana Blanusa; Bert Blocken; Nicole van den Bogerd; John Kaiser Calautit; Nicola Carslaw; Brian Considine; Frederic Coulon; Tracy Epton; H. Christopher Frey; Andrew Grieshop; Laurence Jones; Supreet Kaur; Aonghus McNabola; Sumit Kumar Mishra; Lidia Morawska; Roberta Consentino Kronka Mülfarth; Zaheer Ahmad Nasir; Sukumar Natarajan; Fabiana Lopes de Oliveira; Sandra G.L. Persiani; Christian Pfrang; Jennifer Richmond-Bryant; Elaine Gonçalves Ferreira Santana; Elton Belarmino de Sousa; Wenjie Song; Jens Thomas; Xuan Lorna Wang; Jannis Wenk; Abigail Williams

doi:10.1016/j.buildenv.2026.114336

Ten questions on indoor greening and environmental quality

Prashant Kumar, Hao Sun, Akash Biswal, Anubhav Kumar Dwivedi, Ho Yin Wickson Cheung, Kamaldeep Bhui, Tijana Blanusa, Bert Blocken, Nicole van den Bogerd, John Kaiser Calautit, Nicola Carslaw, Brian Considine, Frederic Coulon, Tracy Epton, H. Christopher Frey, Andrew Grieshop, Laurence Jones, Supreet Kaur, Aonghus McNabola, Sumit Kumar MishraLidia Morawska, Roberta Consentino Kronka Mülfarth, Zaheer Ahmad Nasir, Sukumar Natarajan, Fabiana Lopes de Oliveira, Sandra G.L. Persiani, Christian Pfrang, Jennifer Richmond-Bryant, Elaine Gonçalves Ferreira Santana, Elton Belarmino de Sousa, Wenjie Song, Jens Thomas, Xuan Lorna Wang, Jannis Wenk, Abigail Williams

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Abstract

While outdoor urban greening is recognised for its benefits, indoor green infrastructure (iGI) in shaping indoor environmental quality (IEQ) - including air quality, thermal comfort, and bioaerosols - remains underexplored. This ten-question paper identifies key challenges, opportunities, and research gaps in the iGI-IEQ nexus, organised under 10 questions across five thematic clusters: (1) biophysical and technical performance; (2) ecological and microbiological dynamics; (3) human health and wellbeing; (4) equity, access, and socio-economic factors; and (5) implementation and systems integration. Findings indicate that iGI can improve air quality, regulate humidity, and enhance thermal comfort. However, its performance depends strongly on plant density, species selection, and ventilation. Most evidence comes from controlled settings. iGI may offer positive psychological and cognitive benefits, and can reduce health inequalities through affordable indoor interventions. However, significant data scarcity exists for long-term field studies, indoor microbial ecosystem effects, and socio-economic accessibility. Widespread adoption of iGI requires quantification of proven benefit conditions, followed by overcoming technical, operational, and regulatory barriers via adaptive design, digital monitoring, and interdisciplinary collaboration. As a culminating synthesis, this study introduces a newly developed comprehensive matrix that classifies twenty-six indoor greening types across twenty IEQ parameters, incorporating an assessment of current data confidence. This matrix lays a foundational framework for informed decision-making and design guidance. This review offers evidence-based insights for researchers, policymakers, and practitioners to effectively leverage iGI where suitable, in creating healthier, climate-resilient residential and commercial buildings, addressing both immediate IEQ challenges and supporting long-term sustainability objectives.

Original language	English
Article number	114336
Journal	Building and Environment
Volume	294
Early online date	6 Feb 2026
DOIs	https://doi.org/10.1016/j.buildenv.2026.114336
Publication status	E-pub ahead of print - 6 Feb 2026

Data Availability Statement

No data was used for the research described in the article.

Funding

This work was carried out under the framework of the UKRI (EPSRC)-funded GREENIN Micro Network Plus (Grant No. APP55977) as part of its rapid reviews series, with additional support from the UGPN-funded tri-lateral (UK, USA, Brazil) GREENICON projects. PK and co-authors also acknowledge support from the RECLAIM Network Plus (EP/W034034/1; EP/W033984), GP4Streets (UKRI1281), and GreenCities (NE/X002799/1; NE/X002772/1) projects, as well as from CNPq and FAPESP (Process no. 2024/01097-2).

UN SDGs

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

SDG 3 Good Health and Well-being
SDG 11 Sustainable Cities and Communities
SDG 13 Climate Action

Keywords

Climate resilience
Indoor environmental quality
Indoor green infrastructure (iGI)
Indoor greening
Sustainable development goals
Sustainable living

ASJC Scopus subject areas

Environmental Engineering
Civil and Structural Engineering
Geography, Planning and Development
Building and Construction

Access to Document

10.1016/j.buildenv.2026.114336

Ten_question (accepted author manuscript)Accepted author manuscript, 9.24 MBLicence: CC BY

Cite this

Kumar, P., Sun, H., Biswal, A., Dwivedi, A. K., Cheung, H. Y. W., Bhui, K., Blanusa, T., Blocken, B., van den Bogerd, N., Calautit, J. K., Carslaw, N., Considine, B., Coulon, F., Epton, T., Frey, H. C., Grieshop, A., Jones, L., Kaur, S., McNabola, A., ... Williams, A. (2026). Ten questions on indoor greening and environmental quality. Building and Environment, 294, Article 114336. Advance online publication. https://doi.org/10.1016/j.buildenv.2026.114336

Kumar, P, Sun, H, Biswal, A, Dwivedi, AK, Cheung, HYW, Bhui, K, Blanusa, T, Blocken, B, van den Bogerd, N, Calautit, JK, Carslaw, N, Considine, B, Coulon, F, Epton, T, Frey, HC, Grieshop, A, Jones, L, Kaur, S, McNabola, A, Mishra, SK, Morawska, L, Mülfarth, RCK, Nasir, ZA, Natarajan, S, de Oliveira, FL, Persiani, SGL, Pfrang, C, Richmond-Bryant, J, Santana, EGF, de Sousa, EB, Song, W, Thomas, J, Wang, XL, Wenk, J & Williams, A 2026, 'Ten questions on indoor greening and environmental quality', Building and Environment, vol. 294, 114336. https://doi.org/10.1016/j.buildenv.2026.114336

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title = "Ten questions on indoor greening and environmental quality",

abstract = "While outdoor urban greening is recognised for its benefits, indoor green infrastructure (iGI) in shaping indoor environmental quality (IEQ) - including air quality, thermal comfort, and bioaerosols - remains underexplored. This ten-question paper identifies key challenges, opportunities, and research gaps in the iGI-IEQ nexus, organised under 10 questions across five thematic clusters: (1) biophysical and technical performance; (2) ecological and microbiological dynamics; (3) human health and wellbeing; (4) equity, access, and socio-economic factors; and (5) implementation and systems integration. Findings indicate that iGI can improve air quality, regulate humidity, and enhance thermal comfort. However, its performance depends strongly on plant density, species selection, and ventilation. Most evidence comes from controlled settings. iGI may offer positive psychological and cognitive benefits, and can reduce health inequalities through affordable indoor interventions. However, significant data scarcity exists for long-term field studies, indoor microbial ecosystem effects, and socio-economic accessibility. Widespread adoption of iGI requires quantification of proven benefit conditions, followed by overcoming technical, operational, and regulatory barriers via adaptive design, digital monitoring, and interdisciplinary collaboration. As a culminating synthesis, this study introduces a newly developed comprehensive matrix that classifies twenty-six indoor greening types across twenty IEQ parameters, incorporating an assessment of current data confidence. This matrix lays a foundational framework for informed decision-making and design guidance. This review offers evidence-based insights for researchers, policymakers, and practitioners to effectively leverage iGI where suitable, in creating healthier, climate-resilient residential and commercial buildings, addressing both immediate IEQ challenges and supporting long-term sustainability objectives.",

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author = "Prashant Kumar and Hao Sun and Akash Biswal and Dwivedi, \{Anubhav Kumar\} and Cheung, \{Ho Yin Wickson\} and Kamaldeep Bhui and Tijana Blanusa and Bert Blocken and \{van den Bogerd\}, Nicole and Calautit, \{John Kaiser\} and Nicola Carslaw and Brian Considine and Frederic Coulon and Tracy Epton and Frey, \{H. Christopher\} and Andrew Grieshop and Laurence Jones and Supreet Kaur and Aonghus McNabola and Mishra, \{Sumit Kumar\} and Lidia Morawska and M{\"u}lfarth, \{Roberta Consentino Kronka\} and Nasir, \{Zaheer Ahmad\} and Sukumar Natarajan and \{de Oliveira\}, \{Fabiana Lopes\} and Persiani, \{Sandra G.L.\} and Christian Pfrang and Jennifer Richmond-Bryant and Santana, \{Elaine Gon{\c c}alves Ferreira\} and \{de Sousa\}, \{Elton Belarmino\} and Wenjie Song and Jens Thomas and Wang, \{Xuan Lorna\} and Jannis Wenk and Abigail Williams",

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AU - Kumar, Prashant

AU - Sun, Hao

AU - Biswal, Akash

AU - Dwivedi, Anubhav Kumar

AU - Cheung, Ho Yin Wickson

AU - Bhui, Kamaldeep

AU - Blanusa, Tijana

AU - Blocken, Bert

AU - van den Bogerd, Nicole

AU - Calautit, John Kaiser

AU - Carslaw, Nicola

AU - Considine, Brian

AU - Coulon, Frederic

AU - Epton, Tracy

AU - Frey, H. Christopher

AU - Grieshop, Andrew

AU - Jones, Laurence

AU - Kaur, Supreet

AU - McNabola, Aonghus

AU - Mishra, Sumit Kumar

AU - Morawska, Lidia

AU - Mülfarth, Roberta Consentino Kronka

AU - Nasir, Zaheer Ahmad

AU - Natarajan, Sukumar

AU - de Oliveira, Fabiana Lopes

AU - Persiani, Sandra G.L.

AU - Pfrang, Christian

AU - Richmond-Bryant, Jennifer

AU - Santana, Elaine Gonçalves Ferreira

AU - de Sousa, Elton Belarmino

AU - Song, Wenjie

AU - Thomas, Jens

AU - Wang, Xuan Lorna

AU - Wenk, Jannis

AU - Williams, Abigail

PY - 2026/2/6

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N2 - While outdoor urban greening is recognised for its benefits, indoor green infrastructure (iGI) in shaping indoor environmental quality (IEQ) - including air quality, thermal comfort, and bioaerosols - remains underexplored. This ten-question paper identifies key challenges, opportunities, and research gaps in the iGI-IEQ nexus, organised under 10 questions across five thematic clusters: (1) biophysical and technical performance; (2) ecological and microbiological dynamics; (3) human health and wellbeing; (4) equity, access, and socio-economic factors; and (5) implementation and systems integration. Findings indicate that iGI can improve air quality, regulate humidity, and enhance thermal comfort. However, its performance depends strongly on plant density, species selection, and ventilation. Most evidence comes from controlled settings. iGI may offer positive psychological and cognitive benefits, and can reduce health inequalities through affordable indoor interventions. However, significant data scarcity exists for long-term field studies, indoor microbial ecosystem effects, and socio-economic accessibility. Widespread adoption of iGI requires quantification of proven benefit conditions, followed by overcoming technical, operational, and regulatory barriers via adaptive design, digital monitoring, and interdisciplinary collaboration. As a culminating synthesis, this study introduces a newly developed comprehensive matrix that classifies twenty-six indoor greening types across twenty IEQ parameters, incorporating an assessment of current data confidence. This matrix lays a foundational framework for informed decision-making and design guidance. This review offers evidence-based insights for researchers, policymakers, and practitioners to effectively leverage iGI where suitable, in creating healthier, climate-resilient residential and commercial buildings, addressing both immediate IEQ challenges and supporting long-term sustainability objectives.

AB - While outdoor urban greening is recognised for its benefits, indoor green infrastructure (iGI) in shaping indoor environmental quality (IEQ) - including air quality, thermal comfort, and bioaerosols - remains underexplored. This ten-question paper identifies key challenges, opportunities, and research gaps in the iGI-IEQ nexus, organised under 10 questions across five thematic clusters: (1) biophysical and technical performance; (2) ecological and microbiological dynamics; (3) human health and wellbeing; (4) equity, access, and socio-economic factors; and (5) implementation and systems integration. Findings indicate that iGI can improve air quality, regulate humidity, and enhance thermal comfort. However, its performance depends strongly on plant density, species selection, and ventilation. Most evidence comes from controlled settings. iGI may offer positive psychological and cognitive benefits, and can reduce health inequalities through affordable indoor interventions. However, significant data scarcity exists for long-term field studies, indoor microbial ecosystem effects, and socio-economic accessibility. Widespread adoption of iGI requires quantification of proven benefit conditions, followed by overcoming technical, operational, and regulatory barriers via adaptive design, digital monitoring, and interdisciplinary collaboration. As a culminating synthesis, this study introduces a newly developed comprehensive matrix that classifies twenty-six indoor greening types across twenty IEQ parameters, incorporating an assessment of current data confidence. This matrix lays a foundational framework for informed decision-making and design guidance. This review offers evidence-based insights for researchers, policymakers, and practitioners to effectively leverage iGI where suitable, in creating healthier, climate-resilient residential and commercial buildings, addressing both immediate IEQ challenges and supporting long-term sustainability objectives.

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KW - Indoor environmental quality

KW - Indoor green infrastructure (iGI)

KW - Indoor greening

KW - Sustainable development goals

KW - Sustainable living

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JO - Building and Environment

JF - Building and Environment

M1 - 114336

ER -

Ten questions on indoor greening and environmental quality

Abstract

Data Availability Statement

Funding

UN SDGs

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this