Disturbance and the elevation ranges of woody plant species in the mountains of Costa Rica

Mazón, Miguel Muñoz; Klanderud, Kari; Finegan, Bryan; Veintimilla, Darío; Bermeo, Diego; Murrieta, Eduardo; Delgado, Diego; Sheil, Douglas

doi:10.1002/ece3.5870

Cited by 7 publications

(10 citation statements)

References 71 publications

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“…We maintained it for 18 months from February 2017 to August 2018. Temperature declines from an annual mean of 24°C to 10°C from low to high elevation, while precipitation follows a unimodal shape, from around 3400 mm a year at the lowest elevations, then rises until it peaks at almost 4200 mm at 1500 m and then declines again to around 2000 mm at the highest elevations (Muñoz Mazón et al 2019, 2020, Veintimilla et al 2019). The lowest parts of the elevation gradient are ‘premontane forest' a floristic transition between lowland and cloud forest.…”

Section: Methodsmentioning

confidence: 99%

“…Building on previous syntheses (Sheil 2016) and pilot studies (Muñoz Mazón et al 2019), these ideas on how forest gaps and clearings shape species ranges complement other studies that examined how climate and biotic interactions shape species distributions (Louthan et al 2015, Defossez et al 2016, Olsen et al 2016, Ettinger and HileRisLambers 2017, Putnam and Reich 2017. While it is well known that species tolerance to drought, low temperatures or frost can influence range limits (Ettinger et al 2011, Anderegg and HilleRisLambers 2015, Korner et al 2016, the role of plant interactions, such as competition and facilitation, are still debated (HilleRisLambers et al 2013, Scherrer et al 2020.…”

Section: Introductionmentioning

confidence: 96%

“…The characterization of these relationships is difficult due to the multiple factors that may influence distributions, including the complexity of natural disturbance regimes and multiple processes governing dispersal, establishment and survival (Sheil 2016). Experimental transplanting of tree seedlings under controlled conditions can clarify some effects of open areas versus forest canopy on the performance of this crucial life stage outside their typical elevation ranges (Muñoz Mazón et al 2019).…”

Section: Introductionmentioning

confidence: 99%

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Canopy openness modifies tree seedling distributions along a tropical forest elevation gradient

Mazón

Klanderud

Sheil

2022

Oikos

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In theory, canopy openings can influence tree species establishment and resulting distributions over environmental gradients, but evidence concerning the magnitude and direction of such effects remain scarce. In this study we examine how canopy openings influence seedling persistence and growth and resulting elevation range limits. We transplanted 1360 seedlings of eight woody species (trees Trichilia habanensis, Persea caerulea, Cedrela tonduzii, Cornus disciflora, Quercus salicifolia, Q. bumelioides, Q. costaricensis and the shrub Hypericum irazuense) under the forest canopy and in open areas with understorey vegetation removed in a replicated design along a 2900 m elevation gradient in Costa Rica. We recorded survival, stem diameter and height over 18 months. We used hierarchical generalized additive models to examine relationships of seedling survival and growth with elevation and treatment (inside forest versus open area). We found a clear effect of open versus forest conditions on survival across the elevation gradient for six species. Species planted into open areas with full light exposure survived 100–1000 m below (~ 0.5–5°C warmer), and in one case 300 m above (~ 1.8°C colder) their observed ranges. Above 2900 m, survival of all species was markedly greater under the forest canopy versus open sites, suggesting facilitation from the forest, as frost occurred in open areas above this elevation. The resulting upper range increased between 200 and 1160 m (~ 1–6°C colder) compared to their observed range. At lower elevations, severe insect herbivory occurred on some species likely influencing lower range limits. Open areas influenced how seedling survival and growth varied with elevation for all the studied species. All species survived and grew outside the elevation ranges where they are typically observed. We suggest that the influence of forest gaps and clearings over extended gradients offers novel insights into tree range dynamics, limits and conservation.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

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Canopy openness modifies tree seedling distributions along a tropical forest elevation gradient

Mazón

Klanderud

Sheil

2022

Oikos

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“…However, montane orogenesis led to fluctuations in the climate in high‐altitude regions during the Quaternary period to severely impact the vegetation biota and genetic architecture by preventing population expansion and the migration of species with narrow thermal tolerance ranges (Avise, 2000; Knowles, 2001). Previous highly cited studies broadly explored the effects of tectonic uplifts and climatic oscillations on the diversification patterns of plants species in Europe, North America, and other regions, for example, in the Sierra Madre of Mexico (Bryson et al., 2012), the Andes (Hughes & Eastwood, 2006), Costa Rica (Muñoz et al., 2019), and the Himalayas (Xu et al., 2010; Yang et al., 2012). In China, many previous studies focused on this phenomenon in the complex and conspicuous topographical regions on the Qinghai–Tibet Plateau and adjacent areas (Ding et al., 2020; Wen et al., 2014; Xing & Ree, 2017).…”

Section: Introductionmentioning

confidence: 99%

“…In China, many previous studies focused on this phenomenon in the complex and conspicuous topographical regions on the Qinghai–Tibet Plateau and adjacent areas (Ding et al., 2020; Wen et al., 2014; Xing & Ree, 2017). It was recently reported that climate factors and montane orogenesis had strong and direct effects on montane forests, and they shaped the montane plant diversity (Li et al., 2020; Muñoz et al., 2019). However, another critical biodiversity hotspot in central China is the Qinling Mountains (QM), and the detailed evolutionary histories of plant species in this area are generally unknown (Liu et al., 2015; Wan et al., 2016; Zhang et al., 2015).…”

Section: Introductionmentioning

confidence: 99%

Evolutionary history of endangered and relict tree species Dipteronia sinensis in response to geological and climatic events in the Qinling Mountains and adjacent areas

Shahzad

Liu

Zhao

et al. 2020

Ecology and Evolution

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Altitude and community traits explain rain forest stand dynamics over a 2370‐m altitudinal gradient in Costa Rica

et al. 2021

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Stand dynamic rates in Earth's vitally important tropical mountain rain forests are a central component of the response of these forests to global change, but their relationships to environmental gradients are poorly understood. We worked in mature forests on a 440-2810 m asl altitudinal gradient on Costa Rica's Talamanca Cordillera, making five censuses of 29 0.25-ha permanent sample plots during 2012-2019. We determined mortality and recruitment rates, as well as basal area (G) increments, for individuals ≥10 cm diameter at breast height. Our main hypothesis was that stand dynamic rates decrease with altitude (therefore temperature); we also tested the hypotheses that rates increase with plot community-weighted mean specific leaf area (CWM SLA) and decrease with CWM wood specific gravity (WSG). We developed regressions using generalized additive models to test our hypotheses. Mortality and recruitment rates decreased with altitude in line with our main hypothesis, though the strongly non-linear mortality trend may be driven by extreme weather and temperature. Also, the best model for recruitment rates included plot CWM SLA with a negative relationship. Gross basal area increment ΔG gross , the annual basal area increment of trees that survived the study period, had a hump-shaped relationship to altitude, possibly related to the low CWM WSG of mid-altitude forests. ΔG gross was indeed negatively related to CWM WSG. However, net basal area growth (ΔG net , the annualized difference between initial and final plot basal areas) was positively related to altitude due to low mortality in montane forests, in a model with CWM WSG with a negative relationship. ΔG net was negative in nine of the 29 plots at <1500 m asl. Patterns of rain forest stand dynamics on this long altitudinal gradient go beyond a direct response to temperature, and further work is required to improve scenarios of forest response to climate change. CWM traits should be measured to improve understanding. The effects of storms and lightning on low-and middle-altitude forest and the potentially high resilience of montane Fagaceae-dominated forests require attention. Diversity, not generality, should be expected on comparing tropical forest altitudinal transects.

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Disturbance and the elevation ranges of woody plant species in the mountains of Costa Rica

Cited by 7 publications

References 71 publications

Canopy openness modifies tree seedling distributions along a tropical forest elevation gradient

Canopy openness modifies tree seedling distributions along a tropical forest elevation gradient

Evolutionary history of endangered and relict tree species Dipteronia sinensis in response to geological and climatic events in the Qinling Mountains and adjacent areas

Altitude and community traits explain rain forest stand dynamics over a 2370‐m altitudinal gradient in Costa Rica

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