Spatial and temporal dynamics of live fuel moisture content in eastern Mediterranean woodlands are driven by an interaction between climate and community structure
Avi Bar-Massada A B and Edwin Lebrija-Trejos AA Department of Biology and Environment, University of Haifa at Oranim, Kiryat Tivon 36006, Israel.
B Corresponding author. Email: avi-b@sci.haifa.ac.il
International Journal of Wildland Fire 30(3) 190-196 https://doi.org/10.1071/WF20015
Submitted: 26 January 2020 Accepted: 16 October 2020 Published: 5 November 2020
Abstract
The initiation and spread of wildfires depend, among others, on the live fuel moisture content (LFMC) in plants. Whereas the intrinsic and environmental drivers of LFMC in individual plants are fairly well understood, less is known about ecological interactions potentially affecting LFMC in diverse plant communities. Here, we asked how the interaction between climate and species diversity affects the spatial and temporal dynamics of LFMC in Mediterranean plant communities. We sampled LFMC in six plant communities located along a steep precipitation gradient in four monthly intervals and analysed how LFMC was affected by the structure of the community as well by site and climate conditions. LFMC varied greatly among species, and climate and species richness had an interactive effect on LFMC. On average, species richness had a strong negative effect on LFMC in sites with high rainfall, whereas in drier sites, richness had a small positive effect. Yet the effect of richness on LFMC varied across species, with some exhibiting a positive effect of richness on their LFMC. Individuals surrounded by more heterospecifics tended to have lower LFMC compared with ones surrounded by conspecifics. Our results highlight the interactive roles of climate and community characteristics on LFMC dynamics in eastern Mediterranean ecosystems.
Keywords: ecophysiology, fire, global change ecology, live fuel moisture content, Mediterranean, plant–climate interactions, plant–plant interactions.
References
Baeza MJ, De Luís M, Raventós J, Escarré A (2002) Factors influencing fire behaviour in shrublands of different stand ages and the implications for using prescribed burning to reduce wildfire risk. Journal of Environmental Management 65, 199–208.| Factors influencing fire behaviour in shrublands of different stand ages and the implications for using prescribed burning to reduce wildfire risk.Crossref | GoogleScholarGoogle Scholar | 12197080PubMed |
Bar-Massada A, Belmaker J (2017) Non-stationarity in the co-occurrence patterns of species across environmental gradients. Journal of Ecology 105, 391–399.
| Non-stationarity in the co-occurrence patterns of species across environmental gradients.Crossref | GoogleScholarGoogle Scholar |
Bates D, Maechler M, Bolker B, Walker S (2013) lme4: Linear mixed-effects models using Eigen and S4. Available at http://CRAN.R-project.org/package=lme4 [Verified 25 October 2020]
Bessie WC, Johnson EA (1995) The relative importance of fuels and weather on fire behavior in subalpine forests. Ecology 76, 747–762.
| The relative importance of fuels and weather on fire behavior in subalpine forests.Crossref | GoogleScholarGoogle Scholar |
Bradshaw LS, Deeming JE, Burgan RE, Cohen JD (1984) The 1978 National Fire-Danger Rating System: technical documentation. USDA Forest Service, Intermountain Forest and Range Experiment Station, General Technical Report INT-GTR-169. (Ogden, UT, USA)
Bradstock RA, Cohn JS, Gill AM, Bedward M, Lucas C (2009) Prediction of the probability of large fires in the Sydney region of south-eastern Australia using fire weather. International Journal of Wildland Fire 18, 932–943.
| Prediction of the probability of large fires in the Sydney region of south-eastern Australia using fire weather.Crossref | GoogleScholarGoogle Scholar |
Burgan RE (1979) Estimating live fuel moisture for the 1978 national fire danger rating system. USDA Forest Service, Intermountain Forest and Range Experiment Station, Research Paper INT-RP-226. (Ogden, UT, USA)
Callaway RM, Walker LR (1997) Competition and facilitation: a synthetic approach to interactions in plant communities. Ecology 78, 1958–1965.
| Competition and facilitation: a synthetic approach to interactions in plant communities.Crossref | GoogleScholarGoogle Scholar |
Chuvieco E, González I, Verdú F, Aguado I, Yebra M (2009) Prediction of fire occurrence from live fuel moisture content measurements in a Mediterranean ecosystem. International Journal of Wildland Fire 18, 430–441.
| Prediction of fire occurrence from live fuel moisture content measurements in a Mediterranean ecosystem.Crossref | GoogleScholarGoogle Scholar |
Countryman CM, Dean WA (1979) Measuring moisture content in living chaparral: a field user’s manual. USDA Forest Service, Pacific Southwest Forest and Range Experiment Station, General Technical Report PSW-036. (Berkeley, CA, USA) Available at catalog.hathitrust.org/Record/102384849 [Verified 25 October 2020]
Davies GM, Legg CJ (2008) Developing a live fuel moisture model for moorland fire danger rating. WIT Transactions on Ecology and the Environment 119, 225–236.
| Developing a live fuel moisture model for moorland fire danger rating.Crossref | GoogleScholarGoogle Scholar |
Deeming JE, Cohen JD, Burgan RE (1977) The National Fire Danger Rating System, 1978. USDA Forest Service, Intermountain Forest and Range Experiment Station, General Technical Report INT-39. (Ogden, UT, USA) Available at catalog.hathitrust.org/Record/007396102 [Verified 25 October 2020]
Dennison PE, Roberts DA, Thorgusen SR, Regelbrugge JC, Weise D, Lee C (2003) Modeling seasonal changes in live fuel moisture and equivalent water thickness using a cumulative water balance index. Remote Sensing of Environment 88, 442–452.
| Modeling seasonal changes in live fuel moisture and equivalent water thickness using a cumulative water balance index.Crossref | GoogleScholarGoogle Scholar |
Dennison PE, Moritz MA, Taylor RS (2008) Evaluating predictive models of critical live fuel moisture in the Santa Monica Mountains, California. International Journal of Wildland Fire 17, 18–27.
| Evaluating predictive models of critical live fuel moisture in the Santa Monica Mountains, California.Crossref | GoogleScholarGoogle Scholar |
Dimitrakopoulos AP, Papaioannou KK (2001) Flammability assessment of Mediterranean forest fuels. Fire Technology 37, 143–152.
| Flammability assessment of Mediterranean forest fuels.Crossref | GoogleScholarGoogle Scholar |
Fisser HG, Dyne GMV (1966) Influence of number and spacing of points on accuracy and precision of basal cover estimates. Journal of Range Management 19, 205–211.
| Influence of number and spacing of points on accuracy and precision of basal cover estimates.Crossref | GoogleScholarGoogle Scholar |
Fletcher TH, Pickett BM, Smith SG, Spittle GS, Woodhouse MM, Haake E, Weise DR (2007) Effects of moisture on ignition behavior of moist California chaparral and Utah leaves. Combustion Science and Technology 179, 1183–1203.
| Effects of moisture on ignition behavior of moist California chaparral and Utah leaves.Crossref | GoogleScholarGoogle Scholar |
Fox J, Weisberg S (2019) ‘An R companion to applied regression.’ (SAGE: Los Angeles, CA, USA)
Gellie N, Gibos K, Johnson K (2010) Relationship between severe landscape dryness and large destructive fires in Victoria. In ‘Proceedings of VI international conference on forest fire’, 15–18 November 2010, Coimbra, Portugal. (Ed. DX Viegas) (University of Coimbra, Coimbra, Portugal)
Jolly WM, Johnson DM (2018) Pyro-ecophysiology: shifting the paradigm of live wildland fuel research. Fire 1, 8
| Pyro-ecophysiology: shifting the paradigm of live wildland fuel research.Crossref | GoogleScholarGoogle Scholar |
Jurdao S, Chuvieco E, Arevalillo JM (2012) Modelling fire ignition probability from satellite estimates of live fuel moisture content. Fire Ecology 8, 77–97.
| Modelling fire ignition probability from satellite estimates of live fuel moisture content.Crossref | GoogleScholarGoogle Scholar |
Kahmen S, Poschlod P (2008) Effects of grassland management on plant functional trait composition. Agriculture, Ecosystems & Environment 128, 137–145.
| Effects of grassland management on plant functional trait composition.Crossref | GoogleScholarGoogle Scholar |
Keeley JE, Fotheringham CJ, Moritz MA (2004) Lessons from the October 2003 wildfires in southern California. Journal of Forestry 102, 26–31.
| Lessons from the October 2003 wildfires in southern California.Crossref | GoogleScholarGoogle Scholar |
Keeley JE, Safford H, Fotheringham CJ, Franklin J, Moritz M (2009) The 2007 southern California wildfires: lessons in complexity. Journal of Forestry 107, 287–296.
| The 2007 southern California wildfires: lessons in complexity.Crossref | GoogleScholarGoogle Scholar |
Lortie CJ, Callaway RM (2006) Re-analysis of meta-analysis: support for the stress-gradient hypothesis. Journal of Ecology 94, 7–16.
| Re-analysis of meta-analysis: support for the stress-gradient hypothesis.Crossref | GoogleScholarGoogle Scholar |
Manes A, Ianetz A (1983) Solar irradiance on non-horizontal surfaces at the east Mediterranean coastal plain of Israel. Solar Energy 31, 3–19.
| Solar irradiance on non-horizontal surfaces at the east Mediterranean coastal plain of Israel.Crossref | GoogleScholarGoogle Scholar |
McKenzie D, Miller C, Falk DA (2011) Toward a theory of landscape fire. In ‘The landscape ecology of fire. Ecological studies (analysis and synthesis)’. (Eds D McKenzie, C Miller, D Falk) pp. 3–25. (Springer Netherlands: Dordrecht, the Netherlands)
Moritz MA, Morais ME, Summerell LA, Carlson JM, Doyle J (2005) Wildfires, complexity, and highly optimized tolerance. Proceedings of the National Academy of Sciences of the United States of America 102, 17912–17917.
| Wildfires, complexity, and highly optimized tolerance.Crossref | GoogleScholarGoogle Scholar | 16332964PubMed |
Nolan RH, Hedo J, Arteaga C, Sugai T, Resco de Dios V (2018) Physiological drought responses improve predictions of live fuel moisture dynamics in a Mediterranean forest. Agricultural and Forest Meteorology 263, 417–427.
| Physiological drought responses improve predictions of live fuel moisture dynamics in a Mediterranean forest.Crossref | GoogleScholarGoogle Scholar |
Oliveras I, Gracia M, Moré G, Retana J (2009) Factors influencing the pattern of fire severities in a large wildfire under extreme meteorological conditions in the Mediterranean basin. International Journal of Wildland Fire 18, 755–764.
| Factors influencing the pattern of fire severities in a large wildfire under extreme meteorological conditions in the Mediterranean basin.Crossref | GoogleScholarGoogle Scholar |
Pellizzaro G, Duce P, Ventura A, Zara P (2007) Seasonal variations of live moisture content and ignitability in shrubs of the Mediterranean Basin. International Journal of Wildland Fire 16, 633–641.
| Seasonal variations of live moisture content and ignitability in shrubs of the Mediterranean Basin.Crossref | GoogleScholarGoogle Scholar |
Pivovaroff AL, Emery N, Sharifi MR, Witter M, Keeley JE, Rundel PW (2019) The effect of ecophysiological traits on live fuel moisture content. Fire 2, 28
| The effect of ecophysiological traits on live fuel moisture content.Crossref | GoogleScholarGoogle Scholar |
Plucinski MP, Anderson WR, Bradstock RA, Gill AM (2010) The initiation of fire spread in shrubland fuels recreated in the laboratory. International Journal of Wildland Fire 19, 512–520.
| The initiation of fire spread in shrubland fuels recreated in the laboratory.Crossref | GoogleScholarGoogle Scholar |
Pook EW, Gill AM (1993) Variation of live and dead fine fuel moisture in Pinus radiata plantations of the Australian Capital Territory. International Journal of Wildland Fire 3, 155–168.
| Variation of live and dead fine fuel moisture in Pinus radiata plantations of the Australian Capital Territory.Crossref | GoogleScholarGoogle Scholar |
R Core Team (2013) ‘R: A language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna, Austria)
Riggan PJ, Goode S, Jacks PM, Lockwood RN (1988) Interaction of fire and community development in chaparral of southern California. Ecological Monographs 58, 155–176.
| Interaction of fire and community development in chaparral of southern California.Crossref | GoogleScholarGoogle Scholar |
Rossa CG (2017) The effect of fuel moisture content on the spread rate of forest fires in the absence of wind or slope. International Journal of Wildland Fire 26, 24–31.
| The effect of fuel moisture content on the spread rate of forest fires in the absence of wind or slope.Crossref | GoogleScholarGoogle Scholar |
Rötzer T, Biber P, Moser A, Schaefer C, Pretzsch H (2017) Stem and root diameter growth of European beech and Norway spruce under extreme drought. Forest Ecology and Management 406, 184–195.
| Stem and root diameter growth of European beech and Norway spruce under extreme drought.Crossref | GoogleScholarGoogle Scholar |
Schoenberg FP, Peng R, Huang Z, Rundel P (2003) Detection of non-linearities in the dependence of burn area on fuel age and climatic variables. International Journal of Wildland Fire 12, 1–6.
| Detection of non-linearities in the dependence of burn area on fuel age and climatic variables.Crossref | GoogleScholarGoogle Scholar |
Soler Martin M, Bonet JA, Martínez De Aragón J, Voltas J, Coll L, Resco De Dios V (2017) Crown bulk density and fuel moisture dynamics in Pinus pinaster stands are neither modified by thinning nor captured by the Forest Fire Weather Index. Annals of Forest Science 74, 51
| Crown bulk density and fuel moisture dynamics in Pinus pinaster stands are neither modified by thinning nor captured by the Forest Fire Weather Index.Crossref | GoogleScholarGoogle Scholar |
Sternberg M, Shoshany M (2001) Influence of slope aspect on Mediterranean woody formations: comparison of a semiarid and an arid site in Israel. Ecological Research 16, 335–345.
| Influence of slope aspect on Mediterranean woody formations: comparison of a semiarid and an arid site in Israel.Crossref | GoogleScholarGoogle Scholar |