Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs

Christaline George; Chananwat Kortheerakul; Nitthiya Khunthong; Chitrabhanu Sharma; Danli Luo; Kok-Gan Chan; Maurycy Daroch; Kevin D. Hyde; Patrick K. H. Lee; Kian Mau Goh; Rungaroon Waditee-Sirisattha; Stephen B. Pointing

doi:10.1186/s40793-025-00711-8

Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs

Christaline George, Chananwat Kortheerakul, Nitthiya Khunthong, Chitrabhanu Sharma, Danli Luo, Kok-Gan Chan, Maurycy Daroch, Kevin D. Hyde, Patrick K. H. Lee, Kian Mau Goh^*, Rungaroon Waditee-Sirisattha^*, Stephen B. Pointing^*

^*Corresponding author for this work

School of Energy and Environment

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

2 Citations (Scopus)

3 Downloads (CityUHK Scholars)

Abstract

Hot springs, with their well-characterized major abiotic variables and island-like habitats, are ideal systems for studying microbial biogeography. Photosynthetic biofilms are a major biological feature of hot springs but despite this large-scale studies are scarce, leaving critical questions about the drivers of spatial turnover unanswered. Here, we analysed 395 photosynthetic biofilms from neutral-alkaline hot springs (39–66 °C, pH 6.4–9.0) across a 2100 km latitudinal gradient in Southeast Asia. The Cyanobacteria-dominated communities were categorized into six biogeographic regions, each characterized by a distinct core microbiome and biotic interactions. We observed a significant decline in the explanatory power of major abiotic variables with increasing spatial scale, from 62.6% locally, 55% regionally, to 26.8% for the inter-regional meta-community. Statistical null models revealed that deterministic environmental filtering predominated at local and regional scales, whereas stochastic ecological drift was more influential at the inter-regional scale. These findings enhance our understanding of the differential contribution of ecological drivers and highlight the importance of spatial scale in shaping biogeographic distributions for microorganisms. © The Author(s) 2025.

Original language	English
Article number	50
Journal	Environmental Microbiomes
Volume	20
Online published	13 May 2025
DOIs	https://doi.org/10.1186/s40793-025-00711-8
Publication status	Published - 2025

Funding

The authors acknowledge support provided by the Ranong Municipality and Kamphaengphet Provincial Administrative Organization (Thailand) and National Parks Board (Singapore) for facilitating access to field locations. We thank Tancredi Caruso (University College, Dublin) for advice on null model analysis, Lynn Drescher (National University of Singapore) and Chayanard Phukhamsakda (Mae Fah Luang University) for research support, and Poh Moi Goh (National University of Singapore) for technical support.

Research Keywords

Biogeography
Cyanobacteria
Photosynthetic biofilms
Stochasticity
Thermophiles

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This full text is made available under CC-BY-NC-ND 4.0. https://creativecommons.org/licenses/by-nc-nd/4.0/

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George, C., Kortheerakul, C., Khunthong, N., Sharma, C., Luo, D., Chan, K.-G., Daroch, M., Hyde, K. D., Lee, P. K. H., Goh, K. M., Waditee-Sirisattha, R., & Pointing, S. B. (2025). Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs. Environmental Microbiomes, 20, Article 50. https://doi.org/10.1186/s40793-025-00711-8

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title = "Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs",

abstract = "Hot springs, with their well-characterized major abiotic variables and island-like habitats, are ideal systems for studying microbial biogeography. Photosynthetic biofilms are a major biological feature of hot springs but despite this large-scale studies are scarce, leaving critical questions about the drivers of spatial turnover unanswered. Here, we analysed 395 photosynthetic biofilms from neutral-alkaline hot springs (39–66 °C, pH 6.4–9.0) across a 2100 km latitudinal gradient in Southeast Asia. The Cyanobacteria-dominated communities were categorized into six biogeographic regions, each characterized by a distinct core microbiome and biotic interactions. We observed a significant decline in the explanatory power of major abiotic variables with increasing spatial scale, from 62.6% locally, 55% regionally, to 26.8% for the inter-regional meta-community. Statistical null models revealed that deterministic environmental filtering predominated at local and regional scales, whereas stochastic ecological drift was more influential at the inter-regional scale. These findings enhance our understanding of the differential contribution of ecological drivers and highlight the importance of spatial scale in shaping biogeographic distributions for microorganisms. {\textcopyright} The Author(s) 2025.",

keywords = "Biogeography, Cyanobacteria, Photosynthetic biofilms, Stochasticity, Thermophiles",

author = "Christaline George and Chananwat Kortheerakul and Nitthiya Khunthong and Chitrabhanu Sharma and Danli Luo and Kok-Gan Chan and Maurycy Daroch and Hyde, {Kevin D.} and Lee, {Patrick K. H.} and Goh, {Kian Mau} and Rungaroon Waditee-Sirisattha and Pointing, {Stephen B.}",

year = "2025",

doi = "10.1186/s40793-025-00711-8",

language = "English",

volume = "20",

journal = "Environmental Microbiomes",

issn = "1944-3277",

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George, C, Kortheerakul, C, Khunthong, N, Sharma, C, Luo, D, Chan, K-G, Daroch, M, Hyde, KD, Lee, PKH, Goh, KM, Waditee-Sirisattha, R & Pointing, SB 2025, 'Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs', Environmental Microbiomes, vol. 20, 50. https://doi.org/10.1186/s40793-025-00711-8

Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs. / George, Christaline; Kortheerakul, Chananwat; Khunthong, Nitthiya et al.
In: Environmental Microbiomes, Vol. 20, 50, 2025.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

TY - JOUR

T1 - Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs

AU - George, Christaline

AU - Kortheerakul, Chananwat

AU - Khunthong, Nitthiya

AU - Sharma, Chitrabhanu

AU - Luo, Danli

AU - Chan, Kok-Gan

AU - Daroch, Maurycy

AU - Hyde, Kevin D.

AU - Lee, Patrick K. H.

AU - Goh, Kian Mau

AU - Waditee-Sirisattha, Rungaroon

AU - Pointing, Stephen B.

PY - 2025

Y1 - 2025

N2 - Hot springs, with their well-characterized major abiotic variables and island-like habitats, are ideal systems for studying microbial biogeography. Photosynthetic biofilms are a major biological feature of hot springs but despite this large-scale studies are scarce, leaving critical questions about the drivers of spatial turnover unanswered. Here, we analysed 395 photosynthetic biofilms from neutral-alkaline hot springs (39–66 °C, pH 6.4–9.0) across a 2100 km latitudinal gradient in Southeast Asia. The Cyanobacteria-dominated communities were categorized into six biogeographic regions, each characterized by a distinct core microbiome and biotic interactions. We observed a significant decline in the explanatory power of major abiotic variables with increasing spatial scale, from 62.6% locally, 55% regionally, to 26.8% for the inter-regional meta-community. Statistical null models revealed that deterministic environmental filtering predominated at local and regional scales, whereas stochastic ecological drift was more influential at the inter-regional scale. These findings enhance our understanding of the differential contribution of ecological drivers and highlight the importance of spatial scale in shaping biogeographic distributions for microorganisms. © The Author(s) 2025.

AB - Hot springs, with their well-characterized major abiotic variables and island-like habitats, are ideal systems for studying microbial biogeography. Photosynthetic biofilms are a major biological feature of hot springs but despite this large-scale studies are scarce, leaving critical questions about the drivers of spatial turnover unanswered. Here, we analysed 395 photosynthetic biofilms from neutral-alkaline hot springs (39–66 °C, pH 6.4–9.0) across a 2100 km latitudinal gradient in Southeast Asia. The Cyanobacteria-dominated communities were categorized into six biogeographic regions, each characterized by a distinct core microbiome and biotic interactions. We observed a significant decline in the explanatory power of major abiotic variables with increasing spatial scale, from 62.6% locally, 55% regionally, to 26.8% for the inter-regional meta-community. Statistical null models revealed that deterministic environmental filtering predominated at local and regional scales, whereas stochastic ecological drift was more influential at the inter-regional scale. These findings enhance our understanding of the differential contribution of ecological drivers and highlight the importance of spatial scale in shaping biogeographic distributions for microorganisms. © The Author(s) 2025.

KW - Biogeography

KW - Cyanobacteria

KW - Photosynthetic biofilms

KW - Stochasticity

KW - Thermophiles

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U2 - 10.1186/s40793-025-00711-8

DO - 10.1186/s40793-025-00711-8

M3 - RGC 21 - Publication in refereed journal

C2 - 40361225

SN - 1944-3277

VL - 20

JO - Environmental Microbiomes

JF - Environmental Microbiomes

M1 - 50

ER -

Spatial scale modulates stochastic and deterministic influence on biogeography of photosynthetic biofilms in Southeast Asian hot springs

Abstract

Funding

Research Keywords

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