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1. Data from: Seed dormancy revisited: dormancy-release pathways and environmental interactions

Author

Generalitat Valenciana, Pausas, J. G. [0000-0003-3533-5786], Lamont, Byron B. [B.Lamont@curtin.edu.au], Pausas, J. G. [juli.g.pausas@ext.uv.es], Lamont, Byron B., Pausas, J. G., Generalitat Valenciana, Pausas, J. G. [0000-0003-3533-5786], Lamont, Byron B. [B.Lamont@curtin.edu.au], Pausas, J. G. [juli.g.pausas@ext.uv.es], Lamont, Byron B., and Pausas, J. G.

Abstract

1. Many internal (inherent) and environmental (imposed) factors control seed dormancy and germina-tion from which we can derive three basic dormancy-release pathways: Maternal structures and embryo physiology control inherent dormancy that is broken by various types of scarification and physiological changes, followed by imposed-dormancy release when replaced by certain ‘standard’ environmental conditions that stimulate germination (pathway 1); imposed dormancy prevails even if inherent dorman-cy is broken or not applicable that is released when replaced by certain ‘standard’ environmental condi-tions which stimulate germination (pathway 2); release from inherent dormancy by light/dark or cold stratification is contingent on existing presence of certain ‘standard’ environmental conditions that stim-ulate germination (pathway 3). 2. On-plant seed storage (serotiny) and frugivorous seeds are recognized here as representing special types of physical dormancy, as their properties are consistent with those of hard diaspores. Warm stratification does not require seeds to be moist as it is just a physical response. Heat may promote germination of non-hard, as well as hard, seeds as it may also increase their permeability. 3. Levels of germination gauge the net effect of inherent- and imposed-dormancy release so that it only possible to identify the extent of inherent-dormancy release when conditions for germination are optimal (imposed dormancy has been annulled). While imposed dormancy may be protracted after inherent dormancy is broken by heat or chilling during the dry or cold seasons, release from both states may effectively coincide if smoke chemicals or light are received during the (wet) growing sea-son. 4. We suggest reserving the term secondary dormancy for seeds that return to (inherent or imposed) dormancy due to changed environmental conditions. Under seasonal climates, fluctuations in envi-ronmental conditions can lead to secondary dormancy and even dormancy c

Published
2023

6. Introduction

Author

Rusch, G. M., Pausas, J. G., and Lepš, J.

Published
2003

7. Does plant richness influence animal richness? the mammals of Catalonia (NE Spain)

Author

Hawkins, Bradford A. and Pausas, J G

Subjects
diversity gradients, energy hypothesis, mammal species richness, plant species richness, spatial autocorrelation, water-energy dynamics
Abstract

Although it has long been held that plant diversity must influence animal diversity, the nature of this relationship remains poorly understood at large spatial scales. We compare the species richness patterns of vascular plants and mammals in north-eastern Spain using a 100-km(2) grain size to examine patterns of covariation. We found that the total mammal richness pattern, as well as those of herbivores and carnivores considered separately, only weakly corresponded to the pattern of plants. Rather, mammal richness was best described by climatic variables incorporating water inputs, and after adding these variables to multiple regression models, plant and mammal richness were virtually independent. We conclude that the observed association, although weak, is explained by shared responses of both groups to climate, and thus, plant richness has no influence on the richness pattern of Catalan mammals.

Published
2004

10. Data from: Pyrogeography across the western Palearctic: A diversity of fire regimes

Author

European Commission, Pausas, J. G. [0000-0003-3533-5786], Pausas, J. G., European Commission, Pausas, J. G. [0000-0003-3533-5786], and Pausas, J. G.

Abstract

We characterised fire regimes and estimated fire regime parameters (area burnt, size, intensity, season, patchiness, pyrodiversity) at broad spatial scales using remotely sensed individual-fire data. Specifically, we focused on the western part of the Palearctic realm, i.e., Europe, North Africa, and the Near East. We first divided the study area into eight large ecoregions based on their environment and vegetation (ecoregions): Mediterranean, Arid, Atlantic, Mountains, Boreal, Steppes, Continental, and Tundra. Then we intersected each ecoregion with individual-fire data obtained from remote sensing hotspots to estimate fire regime parameters for each environment. This allowed us to compute annual area burnt, fire size, fire intensity, fire season, fire patchiness, fire recurrence, and pyrodiversity for each ecoregion. We then related those fire parameters with the ecoregions' climate and analysed the temporal trends in fire size. The results suggest that fire regime parameters vary across different environments (ecoregions). The Mediterranean had the largest, most intense, and most recurrent fires, but the Steppes had the largest burnt area. Arid ecosystems had the most extended fire season, Tundra had the patchiest fires, and Boreal forests had the earliest fires of the year. The spatial variability in fire regimes was largely explained by the variability of climate and vegetation, with a tendency for greater fire activity in the warmer ecoregions. There was also a temporal tendency for fires to become larger during the last two decades, especially in Arid and Continental environments. In conclusion, fire regime characteristics of each ecoregion are unique, with a tendency for greater fire activity in warmer environments, and for increasingly large fires in recent decades.

Published
2022

11. Seed dormancy revisited: Dormancy-release pathways and environmental interactions

Author

Generalitat Valenciana, Curtin University of Technology, Lamont, Byron B., Pausas, J. G., Generalitat Valenciana, Curtin University of Technology, Lamont, Byron B., and Pausas, J. G.

Abstract

Many internal (inherent) and environmental (imposed) factors control seed dormancy and germination that we divide into three basic dormancy-release pathways: Maternal structures and embryo physiology control inherent dormancy that is broken by various types of scarification and physiological changes, followed by imposed-dormancy release when the prevailing environment is replaced by certain ‘standard’ conditions that stimulate germination (Pathway 1); imposed dormancy prevails even if inherent dormancy is broken or not applicable that is released when replaced by certain ‘standard’ environmental conditions which stimulate germination (Pathway 2); and release from inherent dormancy by light/dark or cold stratification is contingent on the pre-existence of certain environmental conditions that stimulate germination (Pathway 3). On-plant seed storage (serotiny) and frugivorous seeds are recognized here as representing special types of physical dormancy, as their properties are consistent with those of hard diaspores. Warm stratification does not require seeds to be moist as it is just a physical response. Heat may promote germination of non-hard, as well as hard, seeds as it may increase their permeability further. Levels of germination gauge the net effect of inherent- and imposed-dormancy release so that it is only possible to identify the extent of inherent-dormancy release when conditions for germination are optimal (imposed dormancy has been annulled). While imposed dormancy may be protracted after inherent dormancy is broken by heat or chilling during the dry or cold seasons, release from both states may effectively coincide if smoke chemicals or light are received during the (wet) growing season. We suggest reserving the term secondary dormancy for seeds that return to (inherent or imposed) dormancy due to changed environmental conditions. Under seasonal climates, fluctuations in environmental conditions can lead to secondary dormancy and even dormancy cycling.

Published
2023

12. Lizards' response to the sound of fire is modified by fire history

Author

Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Álvarez-Ruiz, Lola, Pausas, J. G., Blumstein, Daniel T., Putman, Breanna J., Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Álvarez-Ruiz, Lola, Pausas, J. G., Blumstein, Daniel T., and Putman, Breanna J.

Abstract

Many animals survive wildfires; however, the mechanisms used to detect and respond to fire have been poorly studied. Sensory cues like sight and sound are used to recognize threats (e.g. predators) and elicit escape responses in prey. Similarly, these cues might be used to detect an approaching wildfire. We tested whether the western fence lizard, Sceloporus occidentalis, responds to the sound of fire as a threat. We predicted that lizards living in burned areas would be more sensitive to the sound of fire than lizards in adjacent and urban areas, where fire suppression could have induced relaxed selection on fire responsiveness. We compared the behaviours of lizards following an experimental playback where we broadcast the sound of fire along with other control sounds (a predator, a common nonpredatory bird and a novel nonpredatory bird). We conducted our playbacks in 2019 in recently burned areas (using the survivors from the 2018 Woolsey Fire, southern California, U.S.A.), unburned adjacent areas and urban areas. We found that in burned areas, lizards responded more to the sound of fire than all three controls, but in urban areas, they responded more to both the sound of a predator and the sound of fire. Our results suggest that lizard responses to fire sounds are greater in an area that has recently experienced a wildfire than in an unburned area, and that urban areas create a complex evolutionary landscape that also increased antipredator behaviour for other biologically relevant stimuli.

Published
2023

13. Fire favors sexual precocity in a Mediterranean pine

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Ciencia e Innovación (España), Guiote, Carmen, Pausas, J. G., Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Ciencia e Innovación (España), Guiote, Carmen, and Pausas, J. G.

Abstract

Wildfires are a natural disturbance in many ecosystems. Consequently, plant species have acquired traits that allow them to resist and regenerate in an environment with recurrent fires. A key trait in fire-prone ecosystems is the age at first reproduction (maturity age); populations of non-resprouting species cannot persist when the fire interval is shorter than this age. Maturity age is variable among individuals, so we hypothesized that short fire intervals select for early seed production (precocity). We selected 13 plots with different fire regimes in eastern Spain, all dominated by Pinus halepensis (a non-resprouting serotinous pine species). Then, we evaluated the age at first reproduction and the size of the canopy seed bank of each individual tree. Our results show a significant effect of fire regime on the onset of reproduction in this species, suggesting a selection towards higher precocity in populations subject to shorter fire intervals. Due to this higher precocity, pines stored more cones and therefore, increased their potential for reproduction post-fire. We provide the first field evidence that fire can act as a driver of precocity. Being precocious in fire-prone environments is adaptive because it increases the probability of having a significant seed bank when the next fire arrives.

Published
2023

14. Disturbance ecology in human societies

Author

Generalitat Valenciana, European Commission, Pausas, J. G., Leverkus, Alexandro B., Generalitat Valenciana, European Commission, Pausas, J. G., and Leverkus, Alexandro B.

Abstract

We define societal disturbances as discrete events that abruptly disrupt the functioning of human societies. There is a variety of such events, including hurricanes, floods, epidemics, nuclear accidents, earthquakes and wars, among others. These disturbances can interact, further increasing their impacts. The severity of disturbances does not only depend on their intrinsic properties (type, intensity and magnitude) but also greatly on human aspects (socioeconomic, historical, political and cultural aspects that define vulnerability). Very large or severe disturbances are infrequent and unpredictable. Yet societal disturbances are intrinsic to human societies; they have occurred through the entire human history and will continue to occur in the future. We can increase preparedness and recovery capacity but cannot avoid disturbances. The type, regime and scale of disturbances change with the development of societies. The increase in population density and complexity also increases the severity of many disturbances. Societal disturbances can temporarily disrupt the functioning of societies. However, when those disturbances are frequent, societies adapt to them and thus disturbances contribute to shape cultural evolution. That is, societal disturbances have a cost at short temporal scales, but they can build up resilience at mid- to long-term scales. Understanding this dynamic view of human systems is becoming more important as climate is changing, humans are overexploiting natural resources and humanity is dense and hyperconnected. We need to take advantage of frequent small disturbances, as they can build resilience and reduce the likelihood of infrequent large and severe disturbances. Our challenge is to encourage actions and policies to be prepared for unknown, unpredictable and unprecedented (infrequent) large-scale societal disturbances that will surely arrive.

Published
2023

15. Development and characterization of microsatellite loci in Ulex parviflorus Pourr. And its cross-transferability to other Genisteae

Author

European Commission, Generalitat Valenciana, Gutiérrez-Larruscain, David, Donat, Santiago, Pausas, J. G., Segarra-Moragues, José G., European Commission, Generalitat Valenciana, Gutiérrez-Larruscain, David, Donat, Santiago, Pausas, J. G., and Segarra-Moragues, José G.

Abstract

[Background]: The genus Ulex is composed by 15 species distributed in Europe and Africa, but the majority of them are restricted to the Iberian Peninsula and Northwest Africa. Some of these species are common elements at the landscape level, and others contribute to global biodiversity as narrow endemics. Assayed nuclear and plastid Sanger-sequenced regions do not provide enough resolution to perform evolutionary studies on the genus, neither at the intraspecific population level nor at the interspecific phylogenetic level. Thus, we have developed and characterized a set of nuclear microsatellite loci in U. parviflorus to provide new highly polymorphic molecular markers for the genus Ulex., [Methods and results]: Genomic DNA enriched in microsatellite motifs using streptavidin-coated M-280 magnetic beads attached to 5′-biotinylated oligonucleotides was sequenced in a 454GS Junior System. After primer design, fluorescent-dyed amplicons were analyzed through capillary sequencing (ABI3730XL). Here we present twelve new high polimorphic SSRs markers developed in U. parviflorus specimens and tested in 120 individuals. The 12 SSR loci amplified a total of 152 alleles, and detected expected heterozygosities that ranged from 0.674 to 0.725 in the genotyped populations. Successful cross-species transferability of the 12 SSR loci to the rest of species included in the genus Ulex and three other representative Genisteae was achieved., [Conclusions]: The 12 novel proposed SSRs loci will contribute to perform evolutionary studies and genetic research on the genus Ulex and in other Genisteae.

Published
2023

16. Integrating burned area as a complementary performance measure for daily fire danger assessment: A large-scale test

Author

Swiss Government, Bekar, Ismail, Pezzatti, G. Boris, Conedera, Marco, Vacik, Harald, Pausas, J. G., Dupire, Sylvain, Bugmann, Harald, Swiss Government, Bekar, Ismail, Pezzatti, G. Boris, Conedera, Marco, Vacik, Harald, Pausas, J. G., Dupire, Sylvain, and Bugmann, Harald

Abstract

Fire indices are used to describe the weather conditions that influence fire ignition and fire behavior. Although many studies analyzed their performance on fire occurrence at daily resolution, few focused on their ability to capture the burned area, which is usually analyzed at the weekly or monthly scale. Cumulative Logarithmic Area Ranking Efficiency (CLARE) is a newly developed metric that takes burned area into account when assessing daily fire danger. The use of CLARE in addition to the Area Under the receiver operating characteristic Curve (AUC) in the selection process of fire indices or fire occurrence models provides a complementary metric that allows for the evaluation of a model's ability to assess burned area. We evaluated the CLARE performance in 11 regions ranging from the European Alps to the Mediterranean basin. We also assessed the impact of (i) different groups of input variables (meteorological variables vs. fire indices), (ii) model complexity in terms of number of variables, and (iii) the modeling approach (Generalized Linear Models vs. Maxent) on the performance of CLARE. We found that models that achieve a high AUC for predicting fire occurrence may fail to show a high performance when predicting burned area. Using a multi-variable modeling approach is likely to provide higher CLARE performance than using single-variable fire index models, especially among models that have high AUC. Moreover, using this approach led to better multi-variable meteorological model performance than single-variable fire index models for some regions. This may be particularly valuable for regions where the calculation of fire indices is not possible. Finally, the differences between the modeling approaches were mainly related to the region or input variable groups. Overall, our results highlight that including burned area in the fire danger assessment process is feasible across a wide range of environmental conditions and provides valuable insights.

Published
2023

17. Evolutionary fire ecology: An historical account and future directions

Author

Generalitat Valenciana, Pausas, J. G., Keeley, J. E., Generalitat Valenciana, Pausas, J. G., and Keeley, J. E.

Abstract

The idea that fire acts as an evolutionary force contributing to shaping species traits started a century ago, but had not been widely recognized until very recently. Among the first to realize this force were Edward B. Poulton, R. Dale Guthrie, and Edwin V. Komarek in animals and Willis L. Jepson, Walter W. Hough, Tom M. Harris, Philip V. Wells, and Robert W. Mutch in plants. They were all ahead of their time in their evolutionary thinking. Since then, evolutionary fire ecology has percolated very slowly into the mainstream ecology and evolutionary biology; in fact, this topic is still seldom mentioned in textbooks of ecology or evolution. Currently, there is plenty of evidence suggesting that we cannot understand the biodiversity of our planet without considering the key evolutionary role of fire. But there is still research to be done in order to fully understand fire's contribution to species evolution and to predicting species responses to rapid global changes.

Published
2023

25. What do you mean, ‘megafire’?

Author

Australian Wildlife Society, World Wildlife Fund, Linley, Grant D., Jolly, Chris J., Doherty, Tim S., Geary, William L., Armenteras, Dolors, Belcher, Claire M., Bliege Bird, Rebecca, Duane, Andrea, Fletcher, Michael-Shawn, Giorgis, Melisa A., Haslem, Angie, Jones, Gavin M., Kelly, Luke T., Lee, Calvin K. F., Nolan, Rachael H., Parr, Catherine L., Pausas, J. G., Price, Jodi N., Regos, Adrián, Ritchie, Euan G., Ruffault, Julien, Williamson, Grant J., Wu, Qianhan, Nimmo, Dale G., Australian Wildlife Society, World Wildlife Fund, Linley, Grant D., Jolly, Chris J., Doherty, Tim S., Geary, William L., Armenteras, Dolors, Belcher, Claire M., Bliege Bird, Rebecca, Duane, Andrea, Fletcher, Michael-Shawn, Giorgis, Melisa A., Haslem, Angie, Jones, Gavin M., Kelly, Luke T., Lee, Calvin K. F., Nolan, Rachael H., Parr, Catherine L., Pausas, J. G., Price, Jodi N., Regos, Adrián, Ritchie, Euan G., Ruffault, Julien, Williamson, Grant J., Wu, Qianhan, and Nimmo, Dale G.

Abstract

[Background]: ‘Megafire’ is an emerging concept commonly used to describe fires that are extreme in terms of size, behaviour, and/or impacts, but the term’s meaning remains ambiguous. [Approach]: We sought to resolve ambiguity surrounding the meaning of ‘megafire’ by conducting a structured review of the use and definition of the term in several languages in the peer-reviewed scientific literature. We collated definitions and descriptions of megafire and identified criteria frequently invoked to define megafire. We recorded the size and location of megafires and mapped them to reveal global variation in the size of fires described as megafires. [Results]: We identified 109 studies that define the term ‘megafire’ or identify a megafire, with the term first appearing in the peer-reviewed literature in 2005. Seventy-one (~65%) of these studies attempted to describe or define the term. There was considerable variability in the criteria used to define megafire, although definitions of megafire based on fire size were most common. Megafire size thresholds varied geographically from > 100–100,000 ha, with fires > 10,000 ha the most common size threshold (41%, 18/44 studies). Definitions of megafire were most common from studies led by authors from North America (52%, 37/71). We recorded 137 instances from 84 studies where fires were reported as megafires, the vast majority (94%, 129/137) of which exceed 10,000 ha in size. Megafires occurred in a range of biomes, but were most frequently described in forested biomes (112/137, 82%), and usually described single ignition fires (59% 81/137). [Conclusion]: As Earth’s climate and ecosystems change, it is important that scientists can communicate trends in the occurrence of larger and more extreme fires with clarity. To overcome ambiguity, we suggest a definition of megafire as fires > 10,000 ha arising from single or multiple related ignition events. We introduce two additional terms – gigafire (> 100,000 ha) and terafire (> 1,0

Published
2022

26. Wildfire response of GPS-tracked Bonelli's eagles in eastern Spain

Author

Morollón, Sara, Pausas, J. G., Urios, Vicente, López-López, Pascual, Morollón, Sara, Pausas, J. G., Urios, Vicente, and López-López, Pascual

Abstract

[Background]: Little is known about the interaction between predators and wildfires, in part because the large home range and scarcity of predators make their study difficult, and their response is strongly species-specific. [Aims]: In this paper, we study, for the first time, the effect of wildfire on the behaviour of Bonelli’s eagles (Aquila fasciata) simultaneously tracked by GPS/GSM dataloggers in four neighbouring territories., [Methods]: One territory was burnt in a wildfire and the other three were used for comparison. We computed the home-range area by comparing individual spatial and temporal behaviour before, during and after the fire event using kernel density estimators and movement parameters., [Key results]: Our results show an immediate negative effect during the first days of the wildfire for an individual inhabiting the burnt territory – the individual flew directly away from the burning area. However, after a few days, the individual recovered their usual behaviour. The three neighbouring pairs did not show significant differences in behavioural parameters before, during and after the wildfire., [Conclusions and implications]: Our results suggest that occasional wildfires do not affect the distribution and density of Bonelli’s eagles in the short or medium-term (two years after fire). This could be the result of adaptation by this species to the frequent and recurrent wildfires in the Mediterranean area.

Published
2022

27. Bet-hedging and best-bet strategies shape seed dormancy

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, Pausas, J. G., Lamont, Byron B., Keeley, J. E., Bond, W. J., Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, Pausas, J. G., Lamont, Byron B., Keeley, J. E., and Bond, W. J.

Abstract

Seed dormancy (i.e. delayed germination even when conditions arefavourable) is a key plant characteristic that occurs among manyspecies worldwide. But, what selective pressures led to seeddormancy? A recent study provides a major analysis of the factorsdriving this trait at the global scale (Zhanget al.,2022). Usingc.12 000 species and 10 million records across the globe, theyconclude that dormancy is a strategy for plants living under‘seasonal/unpredictable’ environments; and suggest that bet-hedg-ing could be the major mechanism behind the pattern. To reachtheir conclusions the authors relate the proportion of species withdormant seeds in a grid-cell global map against climate variablesrelated to annual precipitation, temperature and seasonality. Thenthey showed that the most significant variables were those related toclimate seasonality that they equate with unpredictable climates(although seasonal climates usually are highly predictable in theirseasonal cycles).

Published
2022

28. Fire-released seed dormancy - a global synthesis

Author

Generalitat Valenciana, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Pausas, J. G., Lamont, Byron B., Generalitat Valenciana, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Pausas, J. G., and Lamont, Byron B.

Abstract

Seed dormancy varies greatly between species, clades, communities, and regions. We propose that fireprone ecosystems create ideal conditions for the selection of seed dormancy as fire provides a mechanism for dormancy release and postfire conditions are optimal for germination. Thus, fire-released seed dormancy should vary in type and abundance under different fire regimes. To test these predictions, we compiled data from a wide range of fire-related germination experiments for species in different ecosystems across the globe. We identified four dormancy syndromes: heat-released (physical) dormancy, smoke-released (physiological) dormancy, non-fire-released dormancy, and non-dormancy. In fireprone ecosystems, fire, in the form of heat and/or chemical by-products (collectively termed ‘smoke’), are the predominant stimuli for dormancy release and subsequent germination, with climate (cold or warm stratification) and light sometimes playing important secondary roles. Fire (heat or smoke)-released dormancy is best expressed where woody vegetation is dense and fires are intense, i.e. in crown-fire ecosystems. In such environments, seed dormancy allows shade-intolerant species to take advantage of vegetation gaps created by fire and synchronize germination with optimal recruitment conditions. In grassy fireprone ecosystems (e.g. savannas), where fires are less intense but more frequent, seed dormancy is less common and dormancy release is often not directly related to fire (non-fire-released dormancy). Rates of germination, whether controls or postfire, are twice as fast in savannas than in mediterranean ecosystems. Fire-released dormancy is rare to absent in arid ecosystems and rainforests. The seeds of many species with fire-released dormancy also possess elaiosomes that promote ant dispersal. Burial by ants increases insulation of seeds from fires and places them in a suitable location for fire-released dormancy. The distribution of these dormancy syndromes across seed

Published
2022

29. Evolutionary ecology of fire

Author

Generalitat Valenciana, U.S. Geological Survey, Keeley, J. E., Pausas, J. G., Generalitat Valenciana, U.S. Geological Survey, Keeley, J. E., and Pausas, J. G.

Abstract

Fire has been an ecosystem process since plants colonized land over 400 million years ago. Many diverse traits provide a fitness benefit following fires, and these adaptive traits vary with the fire regime. Some of these traits enhance fire survival, while others promote recruitment in the postfire environment. Demonstrating that these traits are fire adaptations is challenging, since many arose early in the paleontological record, although increasingly better fossil records and phylogenetic analysis make timing of these trait origins to fire more certain. Resprouting from the base of stems is the most widely distributed fire-adaptive trait, and it is likely to have evolved under a diversity of disturbance types. The origins of other traits like serotiny, thick bark, fire-stimulated germination, and postfire flowering are more tightly linked to fire. Fire-adaptive traits occur in many environments: boreal and temperate forests, Mediterranean-type climate (MTC) shrublands, savannas, and other grasslands. MTC ecosystems are distinct in that many taxa in different regions have lost the resprouting ability and depend solely on postfire recruitment for postfire recovery. This obligate seeding mode is perhaps the most vulnerable fire-adaptive syndrome in the face of current global change, particularly in light of increasing anthropogenic fire frequency.

Published
2022

30. Fire and summer temperatures interact to shape seed dormancy thresholds

Author

Generalitat Valenciana, Zomer, Maya, Moreira, Bruno, Pausas, J. G., Generalitat Valenciana, Zomer, Maya, Moreira, Bruno, and Pausas, J. G.

Abstract

[Background and Aims]: In Mediterranean ecosystems, the heat shock of wildfire disrupts physical seed dormancy in many plant species. This triggers germination in the post-fire environment where seedling establishment is optimal due to decreased competition and increased resource availability. However, to maintain the soil seed bank until a fire occurs, the minimum heat capable of breaking seed dormancy (i.e. the lower heat threshold) must be above the maximum temperatures typically observed in the soil during the summer. We therefore hypothesized that summer temperatures have shaped heat requirements for physical dormancy release. Specifically, we predicted that seeds from populations growing under warmer summers will have higher values of the lower heat threshold. [Methods]: To evaluate this prediction, we collected seeds from two Cistus species in 31 populations (20 Cistus albidus and 11 Cistus salviifolius) along a climate gradient of summer temperatures on the eastern coast of Spain. For each population, seeds were treated to 10 min heat shocks, from 30 to 120 °C in 5 °C increments (19 treatments), to simulate increasing heat doses from summer to fire-related temperatures. Seeds were then germinated in the lab. [Key Results]: For all populations, maximum germination was observed when applying temperatures associated with fire. Lower heat thresholds varied among populations, with a positive relationship between summer temperatures at seed population origin and the heat dose required to break dormancy. [Conclusions]: Our results suggest that fire drives maximum dormancy release for successful post-fire germination, while summer temperatures determine lower heat thresholds for ensuring inter-fire seed bank persistence. Significant among-population variation of thresholds also suggests that post-fire seeder species have some potential to modify their dormancy release requirements in response to changing climate.

Published
2022

31. Pyrogeography across the western Palaearctic: A diversity of fire regimes

Author

European Commission, Pausas, J. G., European Commission, and Pausas, J. G.

Abstract

[Aim] The aim was to characterize fire regimes and estimate fire regime parameters (area burnt, size, intensity, season, patchiness and pyrodiversity) at broad spatial scales using remotely sensed individual-fire data., [Location] Western part of the Palaearctic realm (i.e., Europe, North Africa and the Near East)., [Time period] 2001–2021., [Methods] Initially, I divided the study area into eight large ecoregions based on their environment and vegetation: Mediterranean, Arid, Atlantic, Mountains, Boreal, Steppes, Continental and Tundra. Next, I intersected each predefined ecoregion with individual-fire data obtained from remote sensing hotspots to estimate fire regime parameters for each environment. This allowed me to compute annual area burnt, fire size, fire intensity, fire season, fire patchiness, fire recurrence and pyrodiversity for each ecoregion. I related those fire parameters to the climate of the ecoregions and analysed the temporal trends in fire size., [Results] Fire regime parameters varied across different environments (ecoregions). The Mediterranean had the largest, most intense and most recurrent fires, but the Steppes had the largest burnt area. Arid ecosystems had the most extended fire season, Tundra had the patchiest fires, and Boreal forests had the earliest fires of the year. The spatial variability in fire regimes was largely explained by the variability of climate and vegetation, with a tendency for greater fire activity in the warmer ecoregions. There was also a temporal tendency for large fires to become larger during the last two decades, especially in Arid and Continental environments., [Main conclusion] The fire regime characteristics of each ecoregion are unique, with a tendency for greater fire activity in warmer environments. In addition, fires have been increasing in size during recent decades.

Published
2022

32. Turkish postfire action overlooks biodiversity

Author

Tavsanoglu, Ç., Pausas, J. G., Tavsanoglu, Ç., and Pausas, J. G.

Abstract

Turkey was hit hard by wildfires in 2021, with a record of about 203,000 ha burnt (1). Most of the area burnt was covered by Mediterranean Pinus brutia forests, and the intense fires killed most of the pines (2). However, this species has some closed cones that retain seeds until the heat of a fire releases them (3, 4), allowing regrowth despite the death of the tree (known as postfire recruitment). A great diversity of other species in the area can also resprout or germinate after fire (4). Given that a high level of postfire regeneration will likely take place naturally (3), postfire management should focus on protecting the forest from aggressive human activities.

Published
2022

33. Savanna–Forest coexistence across a fire gradient

Author

Fundação de Amparo à Pesquisa do Estado de São Paulo, Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Instituto Serrapilheira, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Bernardino, Paulo N., Dantas, Vinícius de L., Hirota, Marina, Pausas, J. G., Oliveira, Rafael S., Fundação de Amparo à Pesquisa do Estado de São Paulo, Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Instituto Serrapilheira, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Bernardino, Paulo N., Dantas, Vinícius de L., Hirota, Marina, Pausas, J. G., and Oliveira, Rafael S.

Abstract

Tropical forests and savannas can co-occur in a range of macro-environmental conditions. In these conditions, disturbances and resource availability are thought to control savanna and forest transitions, although the mechanisms involved are disputed. We hypothesized that, in Neotropical regions where fire activity is high, fire is the main factor controlling functional differences between savanna and forest, as well as their relative resistance to biome shifts. We sampled plant functional traits and soil and determined fire history, for 198 plots distributed across three landscapes with distinct fire frequencies (high, mid, and low). In each landscape, plots covered a woody cover gradient (from wooded grasslands to forests). We tested whether the sharpness and the magnitude of the functional distinction between savanna and forest were affected by fire. We also computed the environmental hyperspace (niche space) to evaluate how biome relative stability changed in relation to fire. Functional thresholds were detected only in the high and mid landscapes, where savanna and forest plots formed a multidimensional bimodal distribution in functional trait space. The stability of savannas in relation to forest increased abruptly with fire, whereas functional differences between forest and savanna increased gradually. Our results suggest that savanna can occur as an alternative vegetation state to forest where a fire burns every 18 years (on average), but higher frequencies are required for savannas to occupy large unique portions of the environmental niche space.

Published
2022

34. The legacy of the extinct Neotropical megafauna on plants and biomes

Author

Dantas, Vinícius de L., Pausas, J. G., Dantas, Vinícius de L., and Pausas, J. G.

Abstract

Large mammal herbivores are important drivers of plant evolution and vegetation patterns, but the extent to which plant trait and ecosystem geography currently reflect the historical distribution of extinct megafauna is unknown. We address this question for South and Central America (Neotropical biogeographic realm) by compiling data on plant defence traits, climate, soil, and fire, as well as on the historical distribution of extinct megafauna and extant mammal herbivores. We show that historical mammal herbivory, especially by extinct megafauna, and soil fertility explain substantial variability in wood density, leaf size, spines and latex. We also identified three distinct regions (‘‘antiherbiomes’’), differing in plant defences, environmental conditions, and megafauna history. These patterns largely matched those observed in African ecosystems, where abundant megafauna still roams, and suggest that some ecoregions experienced savanna-to-forest shifts following megafauna extinctions. Here, we show that extinct megafauna left a significant imprint on current ecosystem biogeography.

Published
2022

35. Tree planting goals must account for wildfires

Author

Leverkus, Alexandro B., Thorn, Simon, Lindenmayer, David B., Pausas, J. G., Leverkus, Alexandro B., Thorn, Simon, Lindenmayer, David B., and Pausas, J. G.

Abstract

Grassroots movements such as the Trillion Tree Campaign (1) and international policies such as the EU Biodiversity Strategy for 2030 (2) aim to mitigate climate change through ambitious tree planting objectives. However, tree planting targets could produce counterproductive side effects (3), including an increase in the amount and continuity of fuels, a key driver of large fires in a warming world (4, 5). Drier weather, coupled with afforestation dominated by extensive, dense, even-aged, monospecific conifer or eucalypt plantations, has already promoted megafires in places like Chile and Portugal (6), and burnt areas are more likely to reburn when postfire management includes extensive reforestation instead of natural regrowth (7). Reforestation programs should prioritize the mitigation of fire risks.

Published
2022

36. Feedbacks in ecology and evolution

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, Pausas, J. G., Bond, W. J., Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, Pausas, J. G., and Bond, W. J.

Abstract

Ecology and evolutionary biology have focused on how organisms fit the environment. Less attention has been given to the idea that organisms can also modify their environment, and that these modifications can feed back to the organism, thus providing a key factor for their persistence and evolution. There are at least three independent lines of evidence emphasizing these biological feedback processes at different scales: niche construction (population scale); alternative biome states (community scale); and the Gaia hypothesis (planetary scale). These feedback processes make us rethink traditional concepts like niche and adaptation. We argue that organism–environment feedbacks must become a regular part of ecological thinking, especially now that the Earth is quickly changing.

Published
2022

37. Impact of roadside burning on genetic diversity in a high-biomass invasive grass

Author

European Commission, Di, Binyin, Firn, Jennifer, Lomas, Kate, Pausas, J. G., Smith, Annabel L., European Commission, Di, Binyin, Firn, Jennifer, Lomas, Kate, Pausas, J. G., and Smith, Annabel L.

Abstract

The invasive grass–fire cycle is a widely documented feedback phenomenon in which invasive grasses increase vegetation flammability and fire frequency, resulting in further invasion and compounded effects on fire regimes. Few studies have examined the role of short-term adaptation in driving the invasive grass–fire cycle, despite invasive species often thriving after introduction to new environments. We used a replicated (nine locations), paired sampling design (burn vs unburnt sites) to test the hypothesis that roadside burning increases genetic diversity and thus adaptive potential in the invasive, high-biomass grass Cenchrus ciliaris. Between four and five samples per site (n = 93) were genotyped using the DArTseq platform, and we filtered the data to produce panels of 15,965 neutral and 5030 non-neutral single nucleotide polymorphism (SNP) markers. Using fastSTRUCTURE, we detected three distinct genetic clusters with extremely high FST values among them (0.94–0.97) suggesting three different cultivars. We found high rates of asexual reproduction, possibly related to clonality or apomixis common in this species. At three locations, burnt and unburnt sites were genetically different, but genetic structure was not consistently related to fire management across the study region. Burning was associated with high genetic diversity and sexual reproduction in one genetic cluster, but with low genetic diversity and clonality in another. Individual SNPs were associated with longitude and genetic clustering, but not with recent fire management. Overall, we found limited evidence that roadside burning consistently increased genetic diversity and adaptive potential in C. ciliaris; evolutionary and breeding history more strongly shaped genetic structure. Roadside burning could therefore continue to be used for managing biomass in this species, with continued monitoring. Our study provides a framework for detecting fire-related changes on a genetic level–a process that could b

Published
2022

38. Resilience of reptiles to megafires

Author

Fundação para a Ciência e a Tecnologia (Portugal), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), Santos, Xavier, Belliure, Josabel, Gonçalves, João F., Pausas, J. G., Fundação para a Ciência e a Tecnologia (Portugal), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), Santos, Xavier, Belliure, Josabel, Gonçalves, João F., and Pausas, J. G.

Abstract

Extreme climate events, together with anthropogenic land-use changes, have led to the rise of megafires (i.e., fires at the top of the frequency size distribution) in many world regions. Megafires imply that the center of the burnt area is far from the unburnt; therefore, recolonization may be critical for species with low dispersal abilities such as reptiles. We aimed to evaluate the effect of megafires on a reptile community, exploring to what extent reptile responses are spatially shaped by the distance to the unburnt area. We examined the short-term spatiotemporal response of a Mediterranean reptile community after two megafires (>20,000 ha) that occurred in summer 2012 in eastern Spain. Reptiles were sampled over 4 years after the fire in burnt plots located at different distances from the fire perimeter (edge, middle, and center), and in adjacent unburnt plots. Reptile responses were modeled with fire history, as well as climate and remotely sensed environmental variables. In total, we recorded 522 reptiles from 12 species (11 species in the burnt plots and nine in the unburnt plots). Reptile abundance decreased in burnt compared with unburnt plots. The community composition and species richness did not vary either spatially (unburnt and burnt plots) or temporally (during the 4 years). The persistence of reptiles in the burnt area supported their resilience to megafires. The most common lizard species was Psammodromus algirus; both adults and juveniles were found in all unburnt and burnt plots. This species showed lower abundances in burnt areas compared with the unburnt and a slow short-term abundance recovery. The lizard Psammodromus edwarsianus was much less abundant and showed a tendency to increase its abundance in burnt plots compared with unburnt plots. Within the megafire area, P. algirus and P. edwarsianus abundances correlated with the thermal–moisture environment and vegetation recovery regardless of the distance from the fire edge. These results in

Published
2022

39. Fire favors sexual precocity in a Mediterranean pine

Author

Ministerio de Ciencia e Innovación (España), Ministerio de Educación, Cultura y Deporte (España), Guiote, Carmen [0000-0002-3780-8586], Guiote, Carmen, Pausas, J. G., Ministerio de Ciencia e Innovación (España), Ministerio de Educación, Cultura y Deporte (España), Guiote, Carmen [0000-0002-3780-8586], Guiote, Carmen, and Pausas, J. G.

Abstract

Wildfires are a natural disturbance in many ecosystems. Consequently, plant species have acquired traits that allow them to resist and regenerate in an environment with recurrent fires. A key trait in fire-prone ecosystems is the age at first reproduction (maturity age); populations of non-resprouting species cannot persist when fire interval is shorter than this age. Maturity age is variable among individuals, so we hypothesize that short fire intervals select for early seed production (precocity). We selected 13 plots with different fire regimes in eastern Spain, all dominated by Pinus halepensis (a non-resprouting serotinous species). Then, we evaluated the age at first reproduction and the size of the canopy seed bank of each individual pine. Our results show a significant effect of fire regime on the onset of reproduction in this species, suggesting a selection towards higher precocity in populations subject to shorter fire intervals. Due to this higher precocity, pines stored more cones, and therefore, increased their potential for post-fire regeneration. We provide the first field evidence that fire can act as a driver of precocity. Being precocious in fire-prone environments is adaptive because it increases the probability of having a significant seed bank when the next fire arrives.

Published
2022

41. Data from: Megafauna biogeography explains plant functional trait variation in the tropics

Author

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Dantas, Vinícius de L. [0000-0002-6934-3277], Pausas, J. G. [0000-0003-3533-5786], Dantas, Vinícius de L., Pausas, J. G., Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Dantas, Vinícius de L. [0000-0002-6934-3277], Pausas, J. G. [0000-0003-3533-5786], Dantas, Vinícius de L., and Pausas, J. G.

Abstract

[Aim] Biomes can diverge substantially in plant functional traits and disturbance regimens among regions. Given that Neotropical and Afrotropical regions have contrasting histories of the megafauna (because of the Holocene megafaunal extinction in the Neotropics), we hypothesize that they should harbour plants with different traits in relationship to herbivory and fire, especially in savannas. We predicted that herbivory resistance traits should be more prominent in Afrotropical savanna plants and fire resistance in Neotropical savanna plants., [Location] Tropics., [Time period] Not applicable., [Major taxa studied] Angiosperms (woody)., [Methods] We compiled data for five key plant functional traits (wood density, specific leaf area, maximum tree height, spinescence and proportion of geoxyles) for forest and savanna woody species from the two distant regions (Afrotropics and Neotropics). We related these data to climate, soil and fire variables and tested predictions for megafauna selection., [Results] Spines and high wood density were more common among Afrotropical than Neotropical savanna species and species from the two forests. Moreover, the Neotropical savanna region contained more geoxyles than the Afrotropical savanna region. Finally, Afrotropical species were taller than Neotropical species. These differences were consistent with our predictions for trait selection by the megafauna, and these patterns did not change when considering climate, soil and fire regimens in the models., [Main conclusions] Our results highlight the great potential of these traits for summarizing disturbance strategy axes in tropical woody species and suggest that global variation in plant traits is unlikely to be understood fully without consideration of historical factors, especially the direct and indirect impacts of megafauna.

Published
2020

42. Determinants of post–fire regeneration demography in a subtropical monsoon–climate forest in Southwest China

Author

National Natural Science Foundation of China, National Key Research and Development Program (China), Pausas, J. G. [0000-0003-3533-5786], Luo, Caifang, Shen, Zehao, Li, Yiying, Han, Jie, Pausas, J. G., Xu, Qian, Zhang, Zhiming, Jiang, Youxu, National Natural Science Foundation of China, National Key Research and Development Program (China), Pausas, J. G. [0000-0003-3533-5786], Luo, Caifang, Shen, Zehao, Li, Yiying, Han, Jie, Pausas, J. G., Xu, Qian, Zhang, Zhiming, and Jiang, Youxu

Abstract

Understanding the determinants of post–fire regeneration is critical for determining an appropriate restoration program following fire disturbances. However, studies addressing the drivers of post–fire regeneration of forests in monsoon climate are rare. This study explored the temporal and spatial variations of post–fire forest regeneration in the Central Yunnan Plateau of Southwest China, and disentangled the direct and indirect effects of the environmental factors via structural equation models (SEMs). We found that the overall post–fire regeneration density was generally greater for the habitat with higher values of elevation, pre–fire abundance, and soil pH. Post–fire regeneration was mainly composed of resprouts; seedlings were less relevant and appeared later. The SEM approach showed more variation of recruitment in resprouting (R = 0.66) than seeding (R = 0.33), and revealed different direct and indirect pathways. Resprouts were widely distributed, and significantly influenced by pre–fire abundance, elevation, soil pH, and years since the last fire. In contrast, seedlings preferentially occurred in infertile habitats, and were mainly influenced by topographic position and soil nutrients, showing distinct distribution from that of resprouts. Overall, forests under the subtropical monsoon climate in the Central Yunnan Plateau were resilient to fire mainly due to rapid post–fire resprouting. These findings indicate the complementary roles of resprouting and seeding in post- fire regeneration, and help to understand the mechanisms that regulate post-fire plant regeneration in a spatially heterogeneous landscape. Our results should contribute to improving the post–fire management of forest ecosystems under the influence of a semi–humid monsoon climate.

Published
2020

43. Fire as a selective agent for both Serotiny and Nonserotiny over space and time

Author

Pausas, J. G. [0000-0003-3533-5786], Lamont, Byron B., Pausas, J. G., He, Tianhua, Witkowski, Ed T. F., Hanley, Mick E., Pausas, J. G. [0000-0003-3533-5786], Lamont, Byron B., Pausas, J. G., He, Tianhua, Witkowski, Ed T. F., and Hanley, Mick E.

Abstract

Serotiny is the prolonged storage of seeds in closed cones or fruits held within the crown of woody plants. It is widespread throughout fireprone vegetation with a predominantly winter rainfall, especially in Mediterrnanean-type ecosystems (MTEs). Nonstorage is a feature of fireprone vegetation with summer-dominant rainfall or nonfireprone vegetation. Serotiny confers fitness benefits on an individual when fire return intervals fall between age to reproductive maturity and the plant life span. The level of serotiny within and between species varies greatly along a continuum indicating highly plastic responses to different environmental conditions. Here we review how and why the traits that underpin this reproductive syndrome evolved and continue to control the occurrence of species in contemporary landscapes. We documented 1345 serotinous species in fireprone regions of Australia, South Africa, the Mediterranean Basin, North America, and Asia. The length of seed storage varies from a few years (weak serotiny) to >10 years (strong serotiny), with remarkable diversity even within clades. We show how the interplay between postfire and interfire seedling recruitment dictates the expression of serotiny along a strong serotiny/nonserotiny continuum, and that, where strong serotiny is favored, the ‘gene support for serotiny’ builds up over successive generations. Nonserotiny is favored in the absence of fire or occurs at intervals exceeding plant longevity, but also when the fire is so frequent that only resprouters can survive. We identify 23 traits associated with serotiny/nonserotiny syndromes that are subject to both environmental and phylogenetic constraints. While all are coordinated for maximum fitness, some traits, such as protection from granivores, are only indirectly related to the fire regime. Serotiny has a long history extending back to the Triassic. The rate of serotinous-lineage proliferation has fluctuated greatly over time but peaked over the last 5 milli

Published
2020

44. Megafauna biogeography explains plant functional trait variability in the tropics

Author

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Dantas, Vinícius de L. [0000-0002-6934-3277], Pausas, J. G. [0000-0003-3533-5786], Dantas, Vinícius de L., Pausas, J. G., Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Dantas, Vinícius de L. [0000-0002-6934-3277], Pausas, J. G. [0000-0003-3533-5786], Dantas, Vinícius de L., and Pausas, J. G.

Abstract

Aim: Biomes can diverge substantially in plant functional traits and disturbance regimens among regions. Given that Neotropical and Afrotropical regions have contrasting histories of the megafauna (because of the Holocene megafaunal extinction in the Neotropics), we hypothesize that they should harbour plants with different traits in relationship to herbivory and fire, especially in savannas. We predicted that herbivory resistance traits should be more prominent in Afrotropical savanna plants and fire resistance in Neotropical savanna plants. Location: Tropics. Time period: Not applicable. Major taxa studied: Angiosperms (woody). Methods: We compiled data for five key plant functional traits (wood density, specific leaf area, maximum tree height, spinescence and proportion of geoxyles) for forest and savanna woody species from the two distant regions (Afrotropics and Neotropics). We related these data to climate, soil and fire variables and tested predictions for megafauna selection. Results: Spines and high wood density were more common among Afrotropical than Neotropical savanna species and species from the two forests. Moreover, the Neotropical savanna region contained more geoxyles than the Afrotropical savanna region. Finally, Afrotropical species were taller than Neotropical species. These differences were consistent with our predictions for trait selection by the megafauna, and these patterns did not change when considering climate, soil and fire regimens in the models. Main conclusions: Our results highlight the great potential of these traits for summarizing disturbance strategy axes in tropical woody species and suggest that global variation in plant traits is unlikely to be understood fully without consideration of historical factors, especially the direct and indirect impacts of megafauna.

Published
2020

45. Cross-regional modelling of fire occurrence in the Alps and the Mediterranean Basin

Author

Bekar, Ismail [0000-0002-2899-5025], Pausas, J. G. [0000-0003-3533-5786], Bekar, Ismail, Tavsanoglu, Ç., Boris Pezzatti, G., Vacik, Harald, Pausas, J. G., Bugmann, H., Petter, Gunnar, Bekar, Ismail [0000-0002-2899-5025], Pausas, J. G. [0000-0003-3533-5786], Bekar, Ismail, Tavsanoglu, Ç., Boris Pezzatti, G., Vacik, Harald, Pausas, J. G., Bugmann, H., and Petter, Gunnar

Abstract

In recent decades, changes in fire activity have been observed in Europe. Fires can have large consequences for the provisioning of ecosystem services and for human well-being. Therefore, understanding the drivers of fire occurrence and improving the predictive capability of fire occurrence models is of utmost importance. So far, most studies have focused on individual regions with rather low spatial resolution, and have lacked the ability to apply the models in different regions. Here, a species distribution modelling approach (Maxent) was used to model fire occurrence in four regions across the Mediterranean Basin and the Alps using several environmental variables at two spatial resolutions. Additionally, a cross-regional model was developed and spatial transferability tested. Most models showed good performance, with fine resolution models always featuring somewhat higher performance than coarse resolution models. When transferred across regions, the performance of regional models was good only under similar environmental conditions. The cross-regional model showed a higher performance than the regional models in the transfer tests. The results suggest that a cross-regional approach is most robust when aiming to use fire occurrence models at the regional scale but beyond current environmental conditions, for example in scenario analyses of the impacts of climate change.

Published
2020

46. Alternative biome states in terrestrial ecosystems

Author

Pausas, J. G. [0000-0003-3533-5786], Pausas, J. G., Bond, W. J., Pausas, J. G. [0000-0003-3533-5786], Pausas, J. G., and Bond, W. J.

Abstract

There is growing interest in the application of alternative stable state (ASS) theory to explain major vegetation patterns of the world. Here, we introduce the theory as applied to the puzzle of nonforested (open) biomes growing in climates that are warm and wet enough to support forests (alternative biome states, ABSs). Long thought to be the product of deforestation, diverse lines of evidence indicate that many open ecosystems are ancient. They have also been characterized as ‘early successional’ even where they persist for millennia. ABS is an alternative framework to that of climate determinism and succession for exploring forest/nonforest mosaics. This framework explains not only tropical forest–savanna landscapes, but also other landscape mosaics across the globe.

Published
2020

47. Afforestation falls short as a biodiversity strategy

Author

Pausas, J. G. [0000-0003-3533-5786], Gómez-González, Susana, Ochoa-Hueso, Raúl, Pausas, J. G., Pausas, J. G. [0000-0003-3533-5786], Gómez-González, Susana, Ochoa-Hueso, Raúl, and Pausas, J. G.

Abstract

The recent EU Biodiversity Strategy for 2030 recognizes the importance of biodiversity for increasing our resilience to natural disasters and pandemics and, thus, for human well-being. Although it proposes ambitious measures such as reversing pollinator decline and controlling invasive species, it also introduces the illadvised idea of planting 3 billion trees.

Published
2020

48. Variation in plant belowground resource allocation across heterogeneous landscapes: implications for post-fire resprouting

Author

Consejo Nacional de Ciencia y Tecnología (México), Universidad de Guadalajara (México), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, Agencia Estatal de Investigación (España), Magaña‐Hernández, Esteban [0000-0002-0176-9669], Zuloaga-Aguilar, Susana [0000-0002-7508-3221], Cuevas‐Guzmán, Ramón [0000-0002-4980-8989], Pausas, J. G. [0000-0003-3533-5786], Magaña‐Hernández, Esteban, Zuloaga-Aguilar, Susana, Cuevas‐Guzmán, Ramón, Pausas, J. G., Consejo Nacional de Ciencia y Tecnología (México), Universidad de Guadalajara (México), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, Agencia Estatal de Investigación (España), Magaña‐Hernández, Esteban [0000-0002-0176-9669], Zuloaga-Aguilar, Susana [0000-0002-7508-3221], Cuevas‐Guzmán, Ramón [0000-0002-4980-8989], Pausas, J. G. [0000-0003-3533-5786], Magaña‐Hernández, Esteban, Zuloaga-Aguilar, Susana, Cuevas‐Guzmán, Ramón, and Pausas, J. G.

Abstract

Premise: Resource availability affects biomass allocation in ways that could influence plant responses to disturbance such as fire. This is important because fire also varies across landscapes in ways that are correlated to resource availability. We hypothesized that plants growing in landscape microsites with a shortage of nutrients and water allocate more biomass and resources to belowground structures (and thus promote traits that enhance post-fire resprouting ability) than plants in more mesic sites. Methods: We selected sites in three contrasting topographies (3 gullies, 3 midslopes, and 3 ridges) that supported different vegetation types and fire regimes, in Jalisco, Mexico. At each site, we measured soil nutrient and water content and light availability. Then we sampled biomass and root starch allocation in three post-fire resprouting shrubs that grow across a wide range of microenvironmental conditions. Results: The ridges showed the highest values of solar radiation and the lowest of soil N and water content. Overall, we found a significant tendency for higher root-to-shoot (R/S) ratios, greater fine root biomass, and higher root starch content, in individuals growing in ridges or midslopes compared to the values of the plants living in gullies. Conclusions: Plants located in open canopy sites, characterized by a shortage of nutrients and water, tend to allocate more biomass belowground than plants in wet and fertile sites. Thus, plants in wet and fertile forests should be more vulnerable to increased disturbance such as wildfires.

Published
2020

49. No evidence of suitability of prophylactic fluids for wildfire prevention at landscape scales

Author

Pausas, J. G. [0000-0003-3533-5786], Santín, Cristina, Doerr, Stefan H., Pausas, J. G., Underwood, Emma C., Safford, Hugh, Pausas, J. G. [0000-0003-3533-5786], Santín, Cristina, Doerr, Stefan H., Pausas, J. G., Underwood, Emma C., and Safford, Hugh

Abstract

Yu et al. propose a viscoelastic fluid as a prophylactic fire-retardant treatment in landscapes at high risk of wildfires. We argue that, while the idea is worth exploring further, their data do not support its suitability for real landscape-scale applications.

Published
2020

50. Fire as a fundamental ecological process: Research advances and frontiers

Author

National Science Foundation (US), Pausas, J. G. [0000-0003-3533-5786], McLauchlan, Kendra K., Higuera, Philip E., Miesel, Jessica, Rogers, Brendan M., Schweitzer, Jennifer, Shuman, Jacquelyn K., Tepley, Alan J., Varner, J. Morgan, Veblen, Thomas T., Adalsteinsson, Solny A., Balch, Jennifer K., Baker, Patrick, Batllori, Enric, Bigio, Erica, Brando, Paulo, Cattau, Megan, Chipman, Melissa L., Coen, Janice, Crandall, Raelene, Daniels, Lori, Enright, Neal, Gross, Wendy S., Harvey, Brian J., Hatten, Jeff A., Hermann, Sharon, Hewitt, Rebecca E., Kobziar, Leda N., Landesmann, Jennifer B., Loranty, Michael M., Maezumi, S. Yoshi, Mearns, Linda, Moritz, Max, Myers, Jonathan A., Pausas, J. G., Pellegrini, Adam F. A., Platt, William J., Roozeboom, Jennifer, Safford, Hugh, Santos, Fernanda, Scheller, Robert M., Sherriff, Rosemary L., Smith, Kevin G., Smith, Melinda D., Watts, Adam C., National Science Foundation (US), Pausas, J. G. [0000-0003-3533-5786], McLauchlan, Kendra K., Higuera, Philip E., Miesel, Jessica, Rogers, Brendan M., Schweitzer, Jennifer, Shuman, Jacquelyn K., Tepley, Alan J., Varner, J. Morgan, Veblen, Thomas T., Adalsteinsson, Solny A., Balch, Jennifer K., Baker, Patrick, Batllori, Enric, Bigio, Erica, Brando, Paulo, Cattau, Megan, Chipman, Melissa L., Coen, Janice, Crandall, Raelene, Daniels, Lori, Enright, Neal, Gross, Wendy S., Harvey, Brian J., Hatten, Jeff A., Hermann, Sharon, Hewitt, Rebecca E., Kobziar, Leda N., Landesmann, Jennifer B., Loranty, Michael M., Maezumi, S. Yoshi, Mearns, Linda, Moritz, Max, Myers, Jonathan A., Pausas, J. G., Pellegrini, Adam F. A., Platt, William J., Roozeboom, Jennifer, Safford, Hugh, Santos, Fernanda, Scheller, Robert M., Sherriff, Rosemary L., Smith, Kevin G., Smith, Melinda D., and Watts, Adam C.

Abstract

Fire is a powerful ecological and evolutionary force that regulates organismal traits, population sizes, species interactions, community composition, carbon and nutrient cycling and ecosystem function. It also presents a rapidly growing societal challenge, due to both increasingly destructive wildfires and fire exclusion in fire‐dependent ecosystems. As an ecological process, fire integrates complex feedbacks among biological, social and geophysical processes, requiring coordination across several fields and scales of study. Here, we describe the diversity of ways in which fire operates as a fundamental ecological and evolutionary process on Earth. We explore research priorities in six categories of fire ecology: (a) characteristics of fire regimes, (b) changing fire regimes, (c) fire effects on above‐ground ecology, (d) fire effects on below‐ground ecology, (e) fire behaviour and (f) fire ecology modelling. We identify three emergent themes: the need to study fire across temporal scales, to assess the mechanisms underlying a variety of ecological feedbacks involving fire and to improve representation of fire in a range of modelling contexts. Synthesis: As fire regimes and our relationships with fire continue to change, prioritizing these research areas will facilitate understanding of the ecological causes and consequences of future fires and rethinking fire management alternatives.

Published
2020

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