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Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.1 | The reassembly of diverse forests is an important component in the fight against biodiversity loss and climate change [1].Moreover, many countries and organizations have committed to develop large-scale forest landscape restoration projects as part of programmes such as the Bonn Challenge [2] and the Trillion Tree init... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
] |
Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.2 | Our study was conducted at Estación Experimental Forestal Horizontes (10.712N, 85.594W) in Área de Conservación Guanacaste (ACG) in northwest Costa Rica.This tropical dry forest has a mean annual precipitation of 1730 mm, mean annual temperature of 25°C and a strong five-to six-month dry season from November to May, wi... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
] |
Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.3 | Here we report new observations of above-and below-ground plant functional traits that complement published data on seedling survival and growth in an experimental species selection trial [38].Our original experiment aimed to determine how above-ground traits and soil amendments can be used to improve restoration outco... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
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Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.4 | Physiological traits related to photosynthesis and water-use were made on individuals in the field prior to destructive harvests.We used an LCi portable photosynthesis system (ADC Bioscientific Ltd, Hoddesdon, UK) to measure maximum photosynthetic capacity at 1200 par (Amax; μmol CO 2 m -2 s -1 ), transpiration (E; mmo... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
] |
Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.5 | In an effort to consider all above-or below-ground traits simultaneously, we performed principal component analysis, using the prcomp function within R statistical software [46].All variables were centred and scaled relative to their means and variances to facilitate interpretation of principal components.We performed ... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
] |
Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.6 | Survival to 2 years varied from 7.8% to 90.1% among species.Overall, relative growth rate was the strongest single predictor of tree species survival rate (R 2 adj ¼ 0:42), indicating that species with faster growth rates typically had higher survival.However, PC1, which captured the greatest amount of variation in eit... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
] |
Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.7 | The selection of tree species remains a major challenge facing restoration projects in tropical dry forest.Given the harsh growing conditions, characterized by prolonged dry seasons, mortality rates can be exceptionally high in the first 2 years following seedling establishment [38,50].Surviving this initial growth pha... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
] |
Werden et al_2022_Below-ground traits mediate tree survival in a tropical dry forest restoration.pdf.tei.xml | Below-ground traits mediate tree survival in a tropical dry forest restoration | 0.8 | By highlighting the traits that predict tree seedling survival, our analysis provides a path forward for the selection of species to promote survival in tropical dry forest restoration efforts.Selecting species with fast vertical growth rates has the potential to promote rapid seedling establishment when planted into d... | [
"ecology",
"ecosystems",
"plant science biomass allocation",
"growth rates",
"plant functional traits",
"root traits",
"trait coordination",
"Vertisol"
] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.3 | The study site is in the inner southern suburbs of Brisbane, Queensland, Australia and is known locally as Oxley Creek Common (27°32′S 152°59′E, Figure S1).It is situated on an alluvial floodplain along a section of Oxley Creek, approximately 2 km from its confluence with the Brisbane River to the north.Rainfall averag... | [
"bulk density",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.5 | A 'trait targets' approach (Laughlin, 2014) was used to generate two experimental assemblages with distinct trait profiles: a fast assemblage comprising more resource-acquisitive species, and a hardy assemblage comprising species with more conservative strategies (see Appendix S1).Each assemblage had 16 species and sim... | [
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.6 | The areas available for planting were mainly confined to a 50 m wide strip of alluvial floodplain (Figure S1) that was previously managed as beef cattle pasture.To capture environmental variation across the site, and variation between grazing units (paddocks), a randomized block design that included 10 blocks distribut... | [
"bulk density",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.7 | The survival of all plants was assessed 3.5 months after planting.
Plants were considered dead if they had no visible living leaves, tips or shoots.The height of living plants was measured as the vertical distance from the ground to the live central apex.The exact number of days between planting and monitoring was reco... | [
"bulk density",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.8 | Maximum temperatures on the day of planting were obtained for each plot (Australian Bureau of Meteorology, 2017) to provide a measure of initial heat stress.Four soil samples were collected from each plot (one in the centre of each plot quarter) at a depth of 2-10 cm, making a total of 80 samples.Samples were passed th... | [
"bulk density",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.9 | Leaf, stem and root traits were measured on well-watered, sunhardened seedlings of each species.Five replicate seedlings were sampled, except for three species that had four replicate seedlings.
Three new, fully expanded leaves were selected from each seedling for measurement of SLA, leaf dry matter content (LDMC) and ... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.10 | Separate principal components analyses (PCA) were conducted on soil variables and seedling functional traits to assess correlations between variables.The first three components of the soil PCA explained 79% of the measured variation.Soil PC1 (41%) was negatively loaded by pH, and positively loaded by electrical conduct... | [
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.11 | Plant performance was measured as the probability of surviving to 3.5 months, and the height growth increments of surviving plants.
Survival (1 = alive, 0 = dead) was modelled using a generalized linear mixed-effect model (GLMM) with binomial errors and logit link function.Random effects were included to account for th... | [
"bulk density",
"land degradation",
"pasture",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.12 | The overall probability of surviving the first 3.5 months was 0.45.The Hardy mix had a slightly higher overall probability of survival (0.46) than the Fast mix (0.42), but this difference was not significant when assessed in a simple binomial GLMM (p = .063).Individual species survival probabilities ranged from 0.11 (T... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.13 | The survival model had a marginal R 2 of 0.13 (deviance explained by fixed effects alone), indicating that the fixed effects explained (Figure 2a).This interaction indicated that the probability of survival for seedlings planted in compact soils was lower when they were planted on hot days (Figure 3).We found a strong ... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
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] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.14 | The marginal R 2 of the growth model was 0.27 (around double that of the survival model despite having fewer terms) and the conditional R 2 was 0.57.The mean elevation of plots was significantly and positively related to height growth (Figure 2b).The interaction between maximum temperature (on planting day) and relativ... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.15 | Suboptimal outcomes are common in restoration (Hobbs, 2007;Suding, 2011), but are rarely critically evaluated using empirical data or within the context of a randomized experimental design to reveal barriers impeding restoration.We found that survival and growth of planted seedlings were influenced by planting day temp... | [
"bulk density",
"land degradation",
"pasture",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.16 | The influence of soil bulk density and micro-topography on early plant performance has been highlighted in previous restoration studies (Cheesman, Preece, Oosterzee, Erskine, & Cernusak, 2018;Douterlungne et al., 2015;Martínez-Garza, Campo, Ricker, & Tobón, 2016;Martínez-Garza et al., 2011).The survival of seedlings in... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
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] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.17 | Seedling attributes are well understood to influence initial growth and survival in revegetation settings (Grossnickle, 2012).Many studies have reported that initial seedling height positively correlates with survival and growth of seedlings.Poor performance of small seedlings is generally attributed to the disturbance... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.18 | This study identified the antagonistic effects of planting in compact soils on hot days, as well as the importance of planting seedlings at optimum sizes (25-35 cm tall) to increase survival during the establishment period.Clearly, planting should be avoided on days with high maximum temperatures.However, it is also re... | [
"bulk density",
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"pasture",
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"revegetation",
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Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.22 | We thank the Oxley Creek Catchment Association, and Phil Gunasekara and Chris Jensen in particular, for implementing the project and inviting us to collaborate so enthusiastically.We are also grateful to Carole Bristow, Mary-Lou Simpson and the Friends of Oxley Creek Common for advice and support.Thanks also to the BSU... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
"riparian",
"tubestock"
] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.23 | We thank the Oxley Creek Catchment Association, and Phil Gunasekara and Chris Jensen in particular, for implementing the project and inviting us to collaborate so enthusiastically.We are also grateful to Carole Bristow, Mary-Lou Simpson and the Friends of Oxley Creek Common for advice and support.Thanks also to the BSU... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
"riparian",
"tubestock"
] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.26 | Data available via the Dryad Digital Repository https ://datad ryad.org/stash/ datas et/doi:10.5061/dryad.3kc37b(Gardiner, Shoo, & Dwyer, 2019).
John M. Dwyer https://orcid.org/0000-0001-7389-5528 | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
"riparian",
"tubestock"
] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.27 | Data available via the Dryad Digital Repository https ://datad ryad.org/stash/ datas et/doi:10.5061/dryad.3kc37b(Gardiner, Shoo, & Dwyer, 2019). | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
"riparian",
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] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.28 | John M. Dwyer https://orcid.org/0000-0001-7389-5528 | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
"riparian",
"tubestock"
] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.29 | Additional supporting information may be found online in the Supporting Information section at the end of the article.
How to cite this article: Gardiner R, Shoo LP, Dwyer JM.
Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainf... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
"riparian",
"tubestock"
] |
Gardiner et al. - 2019 - Look to seedling heights, rather than functional t.pdf.tei.xml | Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainforest restoration | 1.30 | Additional supporting information may be found online in the Supporting Information section at the end of the article.
How to cite this article: Gardiner R, Shoo LP, Dwyer JM.
Look to seedling heights, rather than functional traits, to explain survival during extreme heat stress in the early stages of subtropical rainf... | [
"bulk density",
"land degradation",
"pasture",
"restoration",
"revegetation",
"riparian",
"tubestock"
] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.1 | Shade tolerant tree species, also known as non-pioneers, are important elements of mature forest structure and composition, representing more than 80% of tree species in tropical forests (Denslow, 1987;Uhl et al., 1988).This guild recovers at a lower rate along succession because abandoned agricultural land in the trop... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.2 | enrichment planting, late successional, leaf dry mass content, leaf mass area, pasture, secondary forest, seedling survival, traditional selective logging et al., 2008;Williams-Linera, 2002).Recruitment of many shade tolerant tree species is limited in such disturbed habitats (Muñiz-Castro et al., 2012;Ortiz-Colin et a... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.4 | The study sites are located in the TMCF of central Veracruz, Mexico, a region of high priority for conservation and restoration due to the high concentration of biodiversity and considerable loss of forest cover (CONABIO, 2010).In the study region, TMCF ranges between 1,200 and 2,200 m a.s.l.The climate is mild and hum... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.5 | Eight native cloud forest tree species were used to establish the plantings, all of which were reported as being shade tolerant sensu Swaine and Whitmore (1988) (Table 1).Seedlings were grown in polythene bags (30 × 16 cm) with a mixture of forest soil and fine gravel Seedling survival and height were recorded in all t... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.6 | A generalized linear model (GLM; binomial family and logit link function) was used to assess the survival of each species as a function of environment.Environment was included as a factor with three categories (pasture, secondary forest, logged forest).The GLMs were performed using the proportion of surviving seedlings... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.8 | Overall, proportion of survival was highest in logged forests (0.875 ± 0.028), followed by secondary forests (0.798 ± 0.034) and finally pastures (0.624 ± 0.055) after 3 years.Six species presented high survival (>0.70) across all the environments (Figure 1).
Survival was significantly lower in the pastures than in the... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.9 | LMA was a strong predictor of seedling survival in the three environments (Table 2).LDMC was also significantly related to survival (Table 2).
In the three environments, the species with higher LMA displayed higher probability of survival and, those species with higher LDMC also had a higher probability of survival (Fi... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.10 | Our results regarding the relationship between leaf traits and seedling performance within the shade tolerant functional group support a higher probability of survival in species with higher LMA under different disturbed environments.LDMC is also linked to seedling survival among the shade tolerant species, but to a lo... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.11 | The overall survival found after 3 years (76%) surpassed the average survival of 62% reported in a metanalysis of restoration seedling plantings in varied ecosystems (Palma & Laurance, 2015).
Important interspecific variation in transplant performance occurred among environments.However, due to differences among enviro... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.12 | Our results support that LMA is a strong predictor of seedling performance within the shade tolerant guild in disturbed habitats, ranging from recently abandoned pastures to secondary and selectively logged forests.Despite the smaller range of trait values expressed in the understorey of the selectively logged forests,... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.13 | An overarching goal in ecological restoration is to re-establish biodiversity and ecological functions, for which the achievement of Valencia.We thank Victor Vásquez, M.A. García-Hernández, Claudia Gallardo, Javier Tolome, Marichu Peralta, Martín SanGabriel, Carlos Iglesias, Karina Osorio and Carlos Flores for their h... | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.14 | The authors declare that there is no conflict of interest. | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.21 | Grant/Award Number: CB2014-01/238831; Instituto de Ecología A.C., Grant/Award Number: 20030-11218 | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.22 | Grant/Award Number: CB2014-01/238831; Instituto de Ecología A.C., Grant/Award Number: 20030-11218 | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.23 | Data available via the Dryad Digital repository https://doi.org/10.5061/dryad.q2bvq83mj (Toledo-Aceves et al., 2022).
Tarin Toledo-Aceves | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.24 | Data available via the Dryad Digital repository https://doi.org/10.5061/dryad.q2bvq83mj (Toledo-Aceves et al., 2022). | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.25 | Tarin Toledo-Aceves | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.26 | Additional supporting information may be found in the online version of the article at the publisher's website. | [] |
Toledo-Aceves et al. - Leaf functional traits predict shade tolerant tree.pdf.tei.xml | Leaf functional traits predict shade tolerant tree performance in cloud forest restoration plantings | 2.27 | Additional supporting information may be found in the online version of the article at the publisher's website. | [] |
Charles - 2018 - Plant Functional Traits and Species Selection in T.pdf.tei.xml | Plant Functional Traits and Species Selection in Tropical Forest Restoration | 3.4 | The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: The data presented here was from research that was funded by the Australian Research Council (LP0989161). | [
"functional traits",
"restoration",
"seedling growth",
"succession",
"tropical landscapes"
] |
Charles - 2018 - Plant Functional Traits and Species Selection in T.pdf.tei.xml | Plant Functional Traits and Species Selection in Tropical Forest Restoration | 3.5 | The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: The data presented here was from research that was funded by the Australian Research Council (LP0989161). | [
"functional traits",
"restoration",
"seedling growth",
"succession",
"tropical landscapes"
] |
Charles - 2018 - Plant Functional Traits and Species Selection in T.pdf.tei.xml | Plant Functional Traits and Species Selection in Tropical Forest Restoration | 3.6 | The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.
Lachlan S. Charles http://orcid.org/0000-0003-0055-2510 | [
"functional traits",
"restoration",
"seedling growth",
"succession",
"tropical landscapes"
] |
Charles - 2018 - Plant Functional Traits and Species Selection in T.pdf.tei.xml | Plant Functional Traits and Species Selection in Tropical Forest Restoration | 3.7 | The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article. | [
"functional traits",
"restoration",
"seedling growth",
"succession",
"tropical landscapes"
] |
Charles - 2018 - Plant Functional Traits and Species Selection in T.pdf.tei.xml | Plant Functional Traits and Species Selection in Tropical Forest Restoration | 3.8 | Lachlan S. Charles http://orcid.org/0000-0003-0055-2510 | [
"functional traits",
"restoration",
"seedling growth",
"succession",
"tropical landscapes"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.0 | Ecosystem restoration efforts are carried out by a variety of individuals and organizations with an equally varied set of goals, priorities, resources and time-scales.Once restoration of a degraded landscape or community is recognized as necessary, choosing which species to include in a restoration programme can be a d... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.1 | Functional trait theory holds that characteristics or traits of each species reflect their resource use and life-history trade-offs (Reich 2014).A body of evidence shows that plant traits vary continuously, in predictable ways, along resource availability gradientssuggesting that species' functional traits can be linke... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.2 | We had two main considerations for choosing the traits on which to base our species selection.First, we wanted to estimate the 'functional role' or 'strategy' (sensu Reich 2014) of different species within HLWF environments, and secondly, we wanted to identify specific traits that would address our restoration objectiv... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.3 | The potential species pool included native species thought to have been present at the site historically, native species currently found at the site and non-native species already found in the region that are believed to pose low invasion risk.To address the latter, we based our decisions on the Hawaiian Weed Risk Asse... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.4 | We sampled plant traits across the full range of conditions in which HLWF is found regionally in order to account for both site and environmental heterogeneity.In total, we sampled traits at 25 sites throughout east Hawai'i Island, in addition to using existing data from the literature.By far, the most time-consuming a... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.5 | We used a principal components analysis (PCA) to show how the selected species are arranged, relative to one another, in trait space and to provide an idea of each spe- cies' functional profile.Other multivariate techniques could be substituted.An important outcome of the PCA was the prominent separation of native and ... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.6 | To date, multiple studies have evaluated the role of functional traits in ecosystems and/or been carried out in controlled settings and relatively simple ecosystems such as grasslands (Drenovsky & James 2010;Fry, Power & Manning 2013;Lavorel 2013).We show that a trait-based approach can also be used in a tropical fores... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.11 | We thank the Strategic Environmental Research and Development Program for funding (Project RC-2117).Access to field sites was provided by the County of Hawai'i, Division of Forestry and Wildlife and Hawai'i Army National Guard.Jodie Schulten, Amanda Uowolo, Kai McGuire-Turcotte, Chaunda Tactay and Chris Chu assisted wi... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.12 | We thank the Strategic Environmental Research and Development Program for funding (Project RC-2117).Access to field sites was provided by the County of Hawai'i, Division of Forestry and Wildlife and Hawai'i Army National Guard.Jodie Schulten, Amanda Uowolo, Kai McGuire-Turcotte, Chaunda Tactay and Chris Chu assisted wi... | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.13 | Data have not been archived because this article does not contain data. | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Ostertag et al. - 2015 - Using plant functional traits to restore Hawaiian .pdf.tei.xml | Using plant functional traits to restore Hawaiian rainforest | 4.14 | Data have not been archived because this article does not contain data. | [
"community assembly",
"functional restoration",
"Hawaiian lowland wet forest",
"hybrid ecosystem",
"invasion",
"multivariate trait space",
"tropical forest restoration"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.1 | Ecological restoration usually focuses on restoring species composition of pre-disturbance communities (Engst et al. 2016) either by reintroducing targeted native species or by favoring their spontaneous recolonization on degraded sites (Rodrigues et al. 2009;Chazdon & Guariguata 2016).Restoration programs usually rely... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.2 | We systematically reviewed the ISI Web of Science database for papers published between 2007 and 2017.We chose 2007 as a start because a widely accepted concept of functional traits had been published that year (Violle et al. 2007).We followed the PRISMA protocol (http://www.prisma-statement.org/) for paper search and ... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.3 | There was an increasing trend of publication of papers on restoration (specific search; n = 265) that assessed ecosystem services, functional traits, or both across the time period analyzed (n = 228), which accompanied the trend for the whole area of restoration (general search; n = 7,362) (Fig. 1).The rates of increas... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.4 | General Trends and Biases in Functional Restoration Literature Our review elucidates that restoration studies taking into account ecosystem services and functional traits have been growing in number at a similar pace to the whole field of restoration.However, we found a series of biases in functional restoration resear... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.13 | This study was financed by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior-Brasil (CAPES)-Finance Code 001postdoctoral fellowship to M.B.C.; CNPq-Brazil productivity grants to M.V.C. (307796/2015-9), P.H.S.B. (304817/2015-5), and R.L. (306694/2018-2); and FAPESP grant to R.R.R. (2013/50718-5) and is a contr... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.14 | This study was financed by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior-Brasil (CAPES)-Finance Code 001postdoctoral fellowship to M.B.C.; CNPq-Brazil productivity grants to M.V.C. (307796/2015-9), P.H.S.B. (304817/2015-5), and R.L. (306694/2018-2); and FAPESP grant to R.R.R. (2013/50718-5) and is a contr... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.15 | The following information may be found in the online version of this article: Supplement S1.Steps followed during the systematic review.Supplement S2.Papers on ecological restoration (2007-2017) retrieved from the systematic review.Supplement S3.Additional information screened from papers on ecological restoration (200... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Carlucci et al. - 2020 - Functional traits and ecosystem services in ecolog.pdf.tei.xml | Functional traits and ecosystem services in ecological restoration | 5.16 | The following information may be found in the online version of this article: Supplement S1.Steps followed during the systematic review.Supplement S2.Papers on ecological restoration (2007-2017) retrieved from the systematic review.Supplement S3.Additional information screened from papers on ecological restoration (200... | [
"ecosystem function",
"functional diversity",
"functional restoration",
"reassembly",
"restoration target",
"trait-based restoration Conceptual Implications"
] |
Rayome et al. - Restoring Ecosystem Services Tool (REST) a Comput.pdf.tei.xml | Restoring Ecosystem Services Tool (REST): a program for selecting species for restoration projects using a functional-trait approach | 6.1 | Restoration, in its broadest sense, involves improving conditions at a site to meet desired objectives.Traditionally, improving site conditions has meant an effort to return to a former, less-disturbed state, and much has been learned by examining recovery rates across ecosystem types (e.g., Rey Benayas et al. 2009).Ye... | [
"Functional traits",
"ecosystem services",
"land management",
"drought tolerance",
"fire tolerance",
"successional facilitation",
"carbon storage"
] |
Rayome et al. - Restoring Ecosystem Services Tool (REST) a Comput.pdf.tei.xml | Restoring Ecosystem Services Tool (REST): a program for selecting species for restoration projects using a functional-trait approach | 6.2 | One major stumbling block in designing restoration plans is deciding which species to use.The motivation for this approach to species choice comes from the desire to merge practical and ecological restoration techniques, as well as the recognition that species choice for restoration can be a difficult and value-laden p... | [
"Functional traits",
"ecosystem services",
"land management",
"drought tolerance",
"fire tolerance",
"successional facilitation",
"carbon storage"
] |
Rayome et al. - Restoring Ecosystem Services Tool (REST) a Comput.pdf.tei.xml | Restoring Ecosystem Services Tool (REST): a program for selecting species for restoration projects using a functional-trait approach | 6.3 | Functional trait-based restoration is based on the principle that ecosystem function depends in part on the expression of various morphological, structural, physiological, or chemical traits of organisms as well as environmental filters and the interaction between traits and environments.Functional traits reflect funda... | [
"Functional traits",
"ecosystem services",
"land management",
"drought tolerance",
"fire tolerance",
"successional facilitation",
"carbon storage"
] |
Rayome et al. - Restoring Ecosystem Services Tool (REST) a Comput.pdf.tei.xml | Restoring Ecosystem Services Tool (REST): a program for selecting species for restoration projects using a functional-trait approach | 6.4 | Another difficult decision is the choice of traits.In part, restoration goals determine the traits that should be of interest to consider for a particular restoration project.For example, if the aim is to build an ecosystem that is tolerant of fires, traits such as bark thickness and leaf water content may be of intere... | [
"Functional traits",
"ecosystem services",
"land management",
"drought tolerance",
"fire tolerance",
"successional facilitation",
"carbon storage"
] |
Rayome et al. - Restoring Ecosystem Services Tool (REST) a Comput.pdf.tei.xml | Restoring Ecosystem Services Tool (REST): a program for selecting species for restoration projects using a functional-trait approach | 6.6 | • Foliar Nitrogen (resource acquisition)
• Seed mass (reproductive investment and dispersal)
• Specific leaf area (resource allocation)
• Wood density (resource allocation)
• Leaf lifespan (resource allocation)
• Maximum plant height (dispersal) | [
"Functional traits",
"ecosystem services",
"land management",
"drought tolerance",
"fire tolerance",
"successional facilitation",
"carbon storage"
] |
Rayome et al. - Restoring Ecosystem Services Tool (REST) a Comput.pdf.tei.xml | Restoring Ecosystem Services Tool (REST): a program for selecting species for restoration projects using a functional-trait approach | 6.7 | The Hawaiian archipelago has many extremes of biological invasion, one of which is the remnant Hawaiian lowland wet forest (Zimmerman et al. 2008) that led to the development of REST.Approximately half the flora in Hawaii is not native (Wagner et al. 1999), and a number of invaders have been shown to have strong ecosys... | [
"Functional traits",
"ecosystem services",
"land management",
"drought tolerance",
"fire tolerance",
"successional facilitation",
"carbon storage"
] |
Rayome et al. - Restoring Ecosystem Services Tool (REST) a Comput.pdf.tei.xml | Restoring Ecosystem Services Tool (REST): a program for selecting species for restoration projects using a functional-trait approach | 6.8 | In these highly altered habitats, we have no clear historical guide to what species should be planted to achieve traditional restoration goals, and it has become clear that maintaining these forests as all-native species assemblages is unsustainable in terms of labor, logistics, and cost (Cordell et al. 2009, Ostertag ... | [
"Functional traits",
"ecosystem services",
"land management",
"drought tolerance",
"fire tolerance",
"successional facilitation",
"carbon storage"
] |
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