When do propagules matter? The role of ecological filters and regeneration dynamics during community assembly in tallgrass prairie restorations

Willand, Jason

01 December 2014

Ecological restoration aims to augment and steer the composition and contribution of propagules for community regeneration in degraded environments. Three studies were conducted to elucidate the role of regeneration dynamics and dominant species on community assembly during tallgrass prairie restoration. In the first study, patterns in the abundance, richness, and diversity of seed and bud banks were quantified across an 11-year chronosequence of restored prairies and in prairie remnants to elucidate the degree to which the germinable seed bank, emerged seedlings, belowground buds, and emerged ramets were related to community regeneration. There were no directional patterns in the abundance, richness, or diversity of the germinable seed bank across the chronosequence. Emerged seedling abundance of sown species decreased during restoration, whereas richness and diversity of all emerged seedlings and non-sown emerged seedling species decreased across the chronosequence. Conversely, abundance and richness of belowground buds increased with restoration age and belowground bud diversity of sown species increased across the chronosequence. Numbers of emerged ramets also increased across the chronosequence and was driven primarily by the number of graminoid ramets. There were no temporal changes in abundance and richness of sown and non-sown emerged ramets, but diversity of sown emerged ramets increased across the chronosequence. This study demonstrates that after initial seeding, plant community structure in restored prairies increasingly reflects the composition of the bud bank. In the second study, abundance and richness of ramets, emerged seedlings, seed rain, and the soil seed bank were measured in a restoration experiment consisting of a split plot design with population source of dominant grasses (cultivar vs. local ecotype) and sown subordinate species (three unique pools of non-dominant species) as the subplot factor, respectively. Different sown species pools were included to assess whether any observed differences in propagule abundance or richness between the dominant species sources was generalizable across varying interspecific interactions. Abundance of emerged ramets was similar between communities sown with cultivar and local ecotypes of the dominant grasses but differed among sown species pools in prairie restored with cultivars but not local ecotypes. Number of emerged seedlings also differed among species pools, but only in communities sown with local ecotypes of the dominant grasses. There was also higher seedling emergence in communities sown with local ecotypes relative to cultivars of the dominant grasses in one species pool. Richness of the seed rain was influenced by an interaction between dominant grass population source and sown species pool, resulting from (1) higher richness in prairie restored with local ecotypes than cultivars of the native grasses in one species pool and (2) differences in richness among species pools that occurred only in prairie restored with the local ecotype grass source. Abundance and richness of the seed bank was not affected dominant grass population source. This study addressed a poorly understood potential effect of using cultivars in ecological restoration, specifically on the abundance and supply of propagules for community assembly. These results suggest that if both local ecotype and cultivar sources are available for restoration, using local ecotypes could result in more seedling germination and richness in the seed rain. One of the central concepts of ecology is to understand the processes that influence species diversity, and how the resulting diversity affects ecosystem functioning. Diversity has been hypothesized to be responsible for long-term community stability, contrasted by the idea that dominant species regulate temporal stability (mass ratio hypothesis). In the third study, community metrics (total plant cover, forb cover, C4 grass cover, richness, and diversity) were measured in a restoration experiment consisting of a split plot design with sown dominant grasses (Andropogon gerardii, Schizachyrium scoparium, and Sorghastrum nutans) and subordinate species (three unique pools of non-dominant species) as the subplot factor, with treatment (control vs. suppression of dominant grasses) as the sub-subplot factor, respectively. Dominant grass suppression had little effect on forb cover, richness, and diversity, but influenced total and C4 grass cover. Propagule addition increased community richness and diversity in year of sowing and year after sowing, but contributed little to total cover. Dominant grass suppression had an effect on new species recruitment in one of two species pools, with suppression of all dominant grasses having the greatest influence on total cover and richness of new species. These results suggest that dominant species collectively are responsible for modulating stable species composition during community assembly and can act as a biotic filter to the recruitment of new species, but diverse subordinate species assemblages are more important for temporal stability.

Biotic filters

Community assembly

Ecological restoration

Population source

Tallgrass prairie

Padrões de organização e atributos funcionais de plantas em comunidades em estágio inicial e avançado de sucessão em floresta com araucária

Silva, José Vicente da

January 2010

Em ecologia de comunidades buscam-se padrões reproduzíveis, dentre os quais se destaca a busca por regras de montagem ou padrões de organização de comunidades. Diante disso propomos a avaliação desses padrões, com base em convergência e divergência de atributos (TCAP – trait convergence assembly patterns e TDAP – trait divergence assembly patterns, respectivamente), e da influência filogenética na organização de assembléias de espécies lenhosas em florestas. As comunidades foram descritas a partir de atributos funcionais de espécies vegetais, considerando um gradiente sucessional de Floresta Ombrófila Mista, entre áreas que sofreram supressão total da vegetação (denominadas comunidades iniciais) e áreas que não sofreram intervenções expressivas (comunidades avançadas). Para tal, as espécies amostradas, tanto para o estrato superior (indivíduos com DAP ≥ 10 cm), quanto para o estrato inferior (indivíduos com altura > 0,10 m e até 1 cm de DAP), que apresentaram frequência superior a 10%, considerando a amostragem total, foram descritas a partir de 17 atributos funcionais e por relações filogenéticas. Os dados foram analisados a partir de algoritmos baseados em multiplicação e correlações parciais entre diferentes matrizes, que possibilitam discriminar a relevância de TCAP, TDAP e do sinal filogenético para os padrões. Os resultados indicaram que está ocorrendo estruturação das comunidades vegetais a partir dos padrões avaliados, seja convergência ou divergência, relacionados, também, com a filogenia. Diante disso, avaliamos fatores abióticos (filtros ambientais) e bióticos (filtros bióticos) exercem efeitos distintos em comunidades ao longo de um gradiente sucessional, sendo possível observar, também, o sinal filogenético nessas. / In community ecology reproducible patterns are sought, among which stands out the search for assembly rules or assembly patterns. Considering this we propose to evaluate these patterns, based on convergence and divergence of attributes (TCAP – trait convergence assembly patterns and TDAP – trait divergence assembly patterns, respectively) and the phylogenetic influence in the organization of assemblages of woody species in forests. The communities were described from functional traits of plant species, considering a successional gradient of Araucaria Forest, among areas subjected to total removal of vegetation (called initial communities) and areas that haven’t suffered significant interventions (advanced communities). To this end, the species sampled for both the upper stratum (individuals with DBH ≥ 10 cm), and for the lower stratum (individuals with height > 0.10 m and until 1 cm DBH), which had a frequency exceeding 10%, considering the total sampling, were described from 17 functional attributes and phylogenetic relationships. Data were analyzed using algorithms based on multiplication and partial correlations between different matrixes, which permit to discriminate the relevance of TCAP, TDAP and phylogenetic signal to the patterns. The results indicated that is occurring organization of plant communities from the patterns assessed, either convergence or divergence, related also with the phylogeny. Given this, we conclude that abiotic (environmental filters) and biotic (biotic filters) factors exert distinct effects on communities along a successional gradient, and it was possible to observe also the phylogenetic signal in these.

Araucaria

Floresta

Trait convergence

Trait divergence

Phylogenetic signal

Successional gradient

Environmental filters

Biotic filters

Padrões de organização e atributos funcionais de plantas em comunidades em estágio inicial e avançado de sucessão em floresta com araucária

Silva, José Vicente da

January 2010

Em ecologia de comunidades buscam-se padrões reproduzíveis, dentre os quais se destaca a busca por regras de montagem ou padrões de organização de comunidades. Diante disso propomos a avaliação desses padrões, com base em convergência e divergência de atributos (TCAP – trait convergence assembly patterns e TDAP – trait divergence assembly patterns, respectivamente), e da influência filogenética na organização de assembléias de espécies lenhosas em florestas. As comunidades foram descritas a partir de atributos funcionais de espécies vegetais, considerando um gradiente sucessional de Floresta Ombrófila Mista, entre áreas que sofreram supressão total da vegetação (denominadas comunidades iniciais) e áreas que não sofreram intervenções expressivas (comunidades avançadas). Para tal, as espécies amostradas, tanto para o estrato superior (indivíduos com DAP ≥ 10 cm), quanto para o estrato inferior (indivíduos com altura > 0,10 m e até 1 cm de DAP), que apresentaram frequência superior a 10%, considerando a amostragem total, foram descritas a partir de 17 atributos funcionais e por relações filogenéticas. Os dados foram analisados a partir de algoritmos baseados em multiplicação e correlações parciais entre diferentes matrizes, que possibilitam discriminar a relevância de TCAP, TDAP e do sinal filogenético para os padrões. Os resultados indicaram que está ocorrendo estruturação das comunidades vegetais a partir dos padrões avaliados, seja convergência ou divergência, relacionados, também, com a filogenia. Diante disso, avaliamos fatores abióticos (filtros ambientais) e bióticos (filtros bióticos) exercem efeitos distintos em comunidades ao longo de um gradiente sucessional, sendo possível observar, também, o sinal filogenético nessas. / In community ecology reproducible patterns are sought, among which stands out the search for assembly rules or assembly patterns. Considering this we propose to evaluate these patterns, based on convergence and divergence of attributes (TCAP – trait convergence assembly patterns and TDAP – trait divergence assembly patterns, respectively) and the phylogenetic influence in the organization of assemblages of woody species in forests. The communities were described from functional traits of plant species, considering a successional gradient of Araucaria Forest, among areas subjected to total removal of vegetation (called initial communities) and areas that haven’t suffered significant interventions (advanced communities). To this end, the species sampled for both the upper stratum (individuals with DBH ≥ 10 cm), and for the lower stratum (individuals with height > 0.10 m and until 1 cm DBH), which had a frequency exceeding 10%, considering the total sampling, were described from 17 functional attributes and phylogenetic relationships. Data were analyzed using algorithms based on multiplication and partial correlations between different matrixes, which permit to discriminate the relevance of TCAP, TDAP and phylogenetic signal to the patterns. The results indicated that is occurring organization of plant communities from the patterns assessed, either convergence or divergence, related also with the phylogeny. Given this, we conclude that abiotic (environmental filters) and biotic (biotic filters) factors exert distinct effects on communities along a successional gradient, and it was possible to observe also the phylogenetic signal in these.

Araucaria

Floresta

Trait convergence

Trait divergence

Phylogenetic signal

Successional gradient

Environmental filters

Biotic filters

Padrões de organização e atributos funcionais de plantas em comunidades em estágio inicial e avançado de sucessão em floresta com araucária

Silva, José Vicente da

January 2010

Em ecologia de comunidades buscam-se padrões reproduzíveis, dentre os quais se destaca a busca por regras de montagem ou padrões de organização de comunidades. Diante disso propomos a avaliação desses padrões, com base em convergência e divergência de atributos (TCAP – trait convergence assembly patterns e TDAP – trait divergence assembly patterns, respectivamente), e da influência filogenética na organização de assembléias de espécies lenhosas em florestas. As comunidades foram descritas a partir de atributos funcionais de espécies vegetais, considerando um gradiente sucessional de Floresta Ombrófila Mista, entre áreas que sofreram supressão total da vegetação (denominadas comunidades iniciais) e áreas que não sofreram intervenções expressivas (comunidades avançadas). Para tal, as espécies amostradas, tanto para o estrato superior (indivíduos com DAP ≥ 10 cm), quanto para o estrato inferior (indivíduos com altura > 0,10 m e até 1 cm de DAP), que apresentaram frequência superior a 10%, considerando a amostragem total, foram descritas a partir de 17 atributos funcionais e por relações filogenéticas. Os dados foram analisados a partir de algoritmos baseados em multiplicação e correlações parciais entre diferentes matrizes, que possibilitam discriminar a relevância de TCAP, TDAP e do sinal filogenético para os padrões. Os resultados indicaram que está ocorrendo estruturação das comunidades vegetais a partir dos padrões avaliados, seja convergência ou divergência, relacionados, também, com a filogenia. Diante disso, avaliamos fatores abióticos (filtros ambientais) e bióticos (filtros bióticos) exercem efeitos distintos em comunidades ao longo de um gradiente sucessional, sendo possível observar, também, o sinal filogenético nessas. / In community ecology reproducible patterns are sought, among which stands out the search for assembly rules or assembly patterns. Considering this we propose to evaluate these patterns, based on convergence and divergence of attributes (TCAP – trait convergence assembly patterns and TDAP – trait divergence assembly patterns, respectively) and the phylogenetic influence in the organization of assemblages of woody species in forests. The communities were described from functional traits of plant species, considering a successional gradient of Araucaria Forest, among areas subjected to total removal of vegetation (called initial communities) and areas that haven’t suffered significant interventions (advanced communities). To this end, the species sampled for both the upper stratum (individuals with DBH ≥ 10 cm), and for the lower stratum (individuals with height > 0.10 m and until 1 cm DBH), which had a frequency exceeding 10%, considering the total sampling, were described from 17 functional attributes and phylogenetic relationships. Data were analyzed using algorithms based on multiplication and partial correlations between different matrixes, which permit to discriminate the relevance of TCAP, TDAP and phylogenetic signal to the patterns. The results indicated that is occurring organization of plant communities from the patterns assessed, either convergence or divergence, related also with the phylogeny. Given this, we conclude that abiotic (environmental filters) and biotic (biotic filters) factors exert distinct effects on communities along a successional gradient, and it was possible to observe also the phylogenetic signal in these.

Araucaria

Floresta

Trait convergence

Trait divergence

Phylogenetic signal

Successional gradient

Environmental filters

Biotic filters

Ecological effects and control of woody invasive species in an eastern oak-hickory forest

Block, Jeremy A.

January 2021

No description available.

Environmental Science

Natural Resource Management

invasive species

goat browsing

functional traits

abiotic and biotic filters

eastern oak-hickory forest

mechanical clearing

regeneration

recruitment