Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains
| Ano de defesa: | 2024 |
|---|---|
| Autor(a) principal: | |
| Orientador(a): | |
| Banca de defesa: | |
| Tipo de documento: | Tese |
| Tipo de acesso: | Acesso aberto |
| Idioma: | eng |
| Instituição de defesa: |
Universidade Federal de Viçosa
Botânica |
| Programa de Pós-Graduação: |
Não Informado pela instituição
|
| Departamento: |
Não Informado pela instituição
|
| País: |
Não Informado pela instituição
|
| Palavras-chave em Português: | |
| Link de acesso: | https://locus.ufv.br/handle/123456789/32576 https://doi.org/10.47328/ufvbbt.2024.233 |
Resumo: | Understanding the mechanisms that influence the assembly of natural communities has become a central issue in ecological studies, especially because of the influence of diversity on ecosystem functioning. These mechanisms may be related to niche and neutral processes. Niche-related processes include selection imposed by the abiotic environment and biotic interactions, whereas neutral effects are related to chance or historical events. Mountain ecosystems are among the most suitable models for unraveling the interactions between the facets of biodiversity. The overall aim of this project was to understand the assembly processes of alpine and forest plant communities through phylogenetic and functional diversity across altitudinal gradients in tropical mountains. To respond to this approach, we selected areas from several tropical mountains worldwide. We used lists with altitude records from three tropical montane mountains of tropical ecosystems: Mount Puracé, Colombia; Mount Kilimanjaro, Tanzania; and Mount Haleakalā, Hawaii, USA (CAP. 1). In addition, six sampling sites were established along an elevation gradient of (3200-4100 m). At each station, 10 plots measuring 2.5 m x 4 m were established (CAP. 2 and 3). In addition, 28 isolated individuals of Espeletia lopezii (Asteraceae) were selected; a 70 cm diameter metal ring was centered on each caulescent rosette. In addition, 28 rings were established in the open areas (control) (CAP. 4). The alpha taxonomic diversity was estimated using Hill's numbers (q=0, q=1, q=2) (CAP. 2 and 4). For phylogenetic diversity, six phylogenetic metrics were calculated: lineage diversity as the total length of the phylogenetic branch (PD), mean pairwise phylogenetic distance (MPD), mean nearest taxon phylogenetic distance (MNTD), and standardized effect size of these metrics (CAP. 1, 2 and 4). To determine the functional responses that drive the assembly of communities along the elevation gradient, five functional traits were measured: leaf area, leaf length, leaf thickness, leaf dry matter content, and maximum plant height. The weighted community mean (CWM) of the traits and functional diversity (FD) were estimated (CAP. 3). Different statistical models were used to test the main effects of altitude and soil depth on taxonomic, phylogenetic, and functional metrics. In the three tropical mountains, an environmental filtering effect was observed with increasing altitude, causing phylogenetic clustering, decreasing phylogenetic diversity, and decreasing species richness. The decreasing phylogenetic distances between close relatives are congruent with neo-endemism, suggesting recent diversification of plants at high altitudes in tropical mountains, possibly driven by geographical isolation and environmental heterogeneity (CAP. 1). In Chapter 2, the results showed that as soil depth decreased and altitude increased, páramo plant communities showed a general pattern of decreasing phylogenetic diversity. These results are consistent with the general expectation that community assemblage attributes become more closely related as stressful environmental conditions increase along a gradient. In Chapter 3, the results showed that several functional traits (CWM) and several indices of functional diversity varied significantly along the altitude and soil gradient in the area. Three of the five functional traits showed the potential to describe how the functional composition of páramo communities responded to increasing environmental severity along these environmental gradients. The two functional diversity indices, FDis and FRic, significantly decreased with increasing elevation and decreasing soil depth. In Chapter 4, the vegetation under the canopy of the facilitator plants (E. lopezii) was found to have a positive impact on taxonomic diversity, compared to the control areas. Regarding phylogenetic diversity, the dominant pattern observed was mainly random. These results suggest that, at these altitudes, the metacommunity is strongly filtered by climatic and edaphic factors, and despite the benefits of the facilitation exerted by stem rosettes, it is difficult to detect a pattern of phylogenetic overdispersion. In Chapter 5, as a general trend, a greater number of species were found in locations at higher altitudes, decreasing in locations at lower altitudes, and where climatic seasonality is more marked and filters out species from lineages that are less tolerant to stressful environments. Nitrogen-fixing Fabaceae species were prominent among the important species, especially at low altitudes and more stressful sites. Keywords: Tropical mountains, altitudinal gradient, phylogenetic diversity, functional diversity, plant-plant interaction, community assembly. |
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Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountainsFiltragem ambiental, competição e facilitação em comunidades de plantas alpinas e florestais de montanhas tropicaisEcologia das montanhasPlantas das montanhasCompetição (Biologia)Análise cladísticaCIENCIAS BIOLOGICAS::ECOLOGIA::ECOLOGIA DE ECOSSISTEMASUnderstanding the mechanisms that influence the assembly of natural communities has become a central issue in ecological studies, especially because of the influence of diversity on ecosystem functioning. These mechanisms may be related to niche and neutral processes. Niche-related processes include selection imposed by the abiotic environment and biotic interactions, whereas neutral effects are related to chance or historical events. Mountain ecosystems are among the most suitable models for unraveling the interactions between the facets of biodiversity. The overall aim of this project was to understand the assembly processes of alpine and forest plant communities through phylogenetic and functional diversity across altitudinal gradients in tropical mountains. To respond to this approach, we selected areas from several tropical mountains worldwide. We used lists with altitude records from three tropical montane mountains of tropical ecosystems: Mount Puracé, Colombia; Mount Kilimanjaro, Tanzania; and Mount Haleakalā, Hawaii, USA (CAP. 1). In addition, six sampling sites were established along an elevation gradient of (3200-4100 m). At each station, 10 plots measuring 2.5 m x 4 m were established (CAP. 2 and 3). In addition, 28 isolated individuals of Espeletia lopezii (Asteraceae) were selected; a 70 cm diameter metal ring was centered on each caulescent rosette. In addition, 28 rings were established in the open areas (control) (CAP. 4). The alpha taxonomic diversity was estimated using Hill's numbers (q=0, q=1, q=2) (CAP. 2 and 4). For phylogenetic diversity, six phylogenetic metrics were calculated: lineage diversity as the total length of the phylogenetic branch (PD), mean pairwise phylogenetic distance (MPD), mean nearest taxon phylogenetic distance (MNTD), and standardized effect size of these metrics (CAP. 1, 2 and 4). To determine the functional responses that drive the assembly of communities along the elevation gradient, five functional traits were measured: leaf area, leaf length, leaf thickness, leaf dry matter content, and maximum plant height. The weighted community mean (CWM) of the traits and functional diversity (FD) were estimated (CAP. 3). Different statistical models were used to test the main effects of altitude and soil depth on taxonomic, phylogenetic, and functional metrics. In the three tropical mountains, an environmental filtering effect was observed with increasing altitude, causing phylogenetic clustering, decreasing phylogenetic diversity, and decreasing species richness. The decreasing phylogenetic distances between close relatives are congruent with neo-endemism, suggesting recent diversification of plants at high altitudes in tropical mountains, possibly driven by geographical isolation and environmental heterogeneity (CAP. 1). In Chapter 2, the results showed that as soil depth decreased and altitude increased, páramo plant communities showed a general pattern of decreasing phylogenetic diversity. These results are consistent with the general expectation that community assemblage attributes become more closely related as stressful environmental conditions increase along a gradient. In Chapter 3, the results showed that several functional traits (CWM) and several indices of functional diversity varied significantly along the altitude and soil gradient in the area. Three of the five functional traits showed the potential to describe how the functional composition of páramo communities responded to increasing environmental severity along these environmental gradients. The two functional diversity indices, FDis and FRic, significantly decreased with increasing elevation and decreasing soil depth. In Chapter 4, the vegetation under the canopy of the facilitator plants (E. lopezii) was found to have a positive impact on taxonomic diversity, compared to the control areas. Regarding phylogenetic diversity, the dominant pattern observed was mainly random. These results suggest that, at these altitudes, the metacommunity is strongly filtered by climatic and edaphic factors, and despite the benefits of the facilitation exerted by stem rosettes, it is difficult to detect a pattern of phylogenetic overdispersion. In Chapter 5, as a general trend, a greater number of species were found in locations at higher altitudes, decreasing in locations at lower altitudes, and where climatic seasonality is more marked and filters out species from lineages that are less tolerant to stressful environments. Nitrogen-fixing Fabaceae species were prominent among the important species, especially at low altitudes and more stressful sites. Keywords: Tropical mountains, altitudinal gradient, phylogenetic diversity, functional diversity, plant-plant interaction, community assembly.Compreender os mecanismos que influenciam a montagem das comunidades naturais tornou- se um assunto central nos estudos de ecologia, especialmente pela influência da diversidade no funcionamento ecossistêmico. Estes mecanismos podem estar relacionados a nichos e processos neutros. Os processos relacionados a nichos incluem a seleção imposta pelo ambiente abiótico e interações bióticas, enquanto os efeitos neutros estão relacionados ao acaso ou eventos históricos. Os ecossistemas de montanha são um dos modelos mais adequados para desvendar a interação entre as facetas da biodiversidade. Neste contexto, o objetivo geral deste projeto for compreender os processos de montagem das comunidades de plantas alpinas e florestais por meio da diversidade filogenética e funcional em gradientes altitudinais em montanhas tropicais. Para responder a esta abordagem, foram selecionadas áreas em várias montanhas tropicais ao redor do mundo. Foram usadas listas com registros de altitude de três montanhas tropicais montanas de ecossistemas tropicais: do Monte Puracé, Colômbia; do Monte Kilimanjaro, Tanzânia; e do Monte Haleakalā, Havaí, EUA (CAP. 1). Também, foram estabelecidas seis cotas de amostragem em um gradiente de elevação (3200- 4100 m). Em cada estação se estabeleceram 10 parcelas de 2.5 m x 4 m (CAP. 2 e 3). Além disso, foram selecionados 28 indivíduos isolados de Espeletia lopezii (Asteraceae); um anel de metal de 70 cm de diâmetro foi centrado em cada roseta caulescente. Também, foram estabelecidos 28 anéis em áreas abertas (controle) (CAP. 4). A diversidade taxonômica alfa foi estimada usando os números de Hill (q=0, q=1, q=2) (CAP. 2 e 4). Para a diversidade filogenética foram calculados seis métricas filogenéticas: a diversidade da linhagem como o comprimento total do ramo filogenético (PD); a distância filogenética média de pares (MPD); a distância filogenética média do táxon mais próximo (MNTD) e tamanho do efeito padronizado dessas métricas (CAP. 1, 2 e 4). Para determinar as respostas funcionais que impulsionam a montagem das comunidades ao longo do gradiente de elevação foram medidos cinco traços funcionais: área foliar, comprimento foliar, espessura foliar e conteúdo de matéria seca foliar e altura máxima de planta, e, posteriormente, foram estimadas a média ponderada da comunidade (CWM) dos traços e a diversidade funcional (DF) (CAP. 3). Foram utilizados diferentes modelos estatísticos para testar os principais efeitos da altitude e a profundidade do solo em diferentes métricas taxonômicas, filogenéticas e funcionais. Nas três montanhas tropicais, foi encontrado um efeito de filtragem ambiental com o aumento da altitude, causando agrupamento filogenético, diminuição da diversidade filogenética e diminuição da riqueza de espécies. As distâncias filogenéticas decrescentes entre parentes mais próximos são congruentes com as neo-endemismos, sugerindo uma recente diversificação de plantas em grandes altitudes de montanhas tropicais, possivelmente impulsionada pelo isolamento geográfico e pela heterogeneidade ambiental (CAP. 1). Para o capítulo 2, os resultados mostraram que, à medida que a profundidade do solo diminuía e a altitude aumentava, as comunidades de plantas do páramo apresentavam um padrão geral de diminuição da diversidade filogenética. Estes resultados são consistentes com a expectativa geral de que os atributos da montagem comunitária estão mais intimamente relacionados à medida que as condições ambientais estressantes aumentam ao longo de um gradiente. Para o capítulo 3, os resultados mostraram que vários traços funcionais (CWM) e vários índices da diversidade funcional variaram significativamente ao longo do gradiente de altitude e de solo no páramo em estudo. Três dos cinco traços funcionais revelaram o potencial para descrever como a composição funcional das comunidades de páramo respondeu ao aumento da severidade ambiental ao longo destes gradientes ambientais. Os dois índices de diversidade funcional, FDis e FRic, diminuíram significativamente com o aumento da elevação e a diminuição da profundidade do solo. Para o capítulo 4, se encontrou que a vegetação sob a copa das plantas facilitadoras (E. Lopezii) teve um impacto positivo na diversidade taxonômica, em comparação com as áreas de controle. Em relação à diversidade filogenética, foi observado que o padrão dominante foi principalmente aleatório, esses resultados sugerem que, nessas altitudes, a metacomunidade é fortemente filtrada por fatores climáticos e edáficos, e que apesar dos benefícios da facilitação exercida pelas rosetas caulescentes, é difícil detectar um padrão de sobredispersão filogenética. Para o Capítulo 5, como tendência geral, foi encontrado um número maior de espécies em locais de altitudes mais elevadas, diminuindo em locais de altitudes mais baixas e onde a sazonalidade climática é mais acentuada e filtra espécies de linhagens menos tolerantes a ambientes estressantes. As espécies de Fabaceae fixadoras de nitrogênio se destacaram entre as espécies importantes, especialmente em locais de baixa altitude e mais estressantes. Palavras-chave: Montanhas tropicais, gradiente altitudinal, diversidade filogenética, diversidade funcional, interação planta-planta, montagem de comunidades.Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)Universidade Federal de ViçosaBotânicaMeira Neto, João Augusto Alveshttp://lattes.cnpq.br/7349372370482607Galván Cisneros, Carlos Mario2024-08-13T12:06:05Z2024-03-06info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisapplication/pdfGALVÁN CISNEROS, Carlos Mario. Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains. 2024. 162 f. Tese (Doutorado em Botânica) - Universidade Federal de Viçosa, Viçosa. 2024.https://locus.ufv.br/handle/123456789/32576https://doi.org/10.47328/ufvbbt.2024.233enginfo:eu-repo/semantics/openAccessreponame:LOCUS Repositório Institucional da UFVinstname:Universidade Federal de Viçosa (UFV)instacron:UFV2024-08-14T06:02:44Zoai:locus.ufv.br:123456789/32576Repositório InstitucionalPUBhttps://www.locus.ufv.br/oai/requestfabiojreis@ufv.bropendoar:21452024-08-14T06:02:44LOCUS Repositório Institucional da UFV - Universidade Federal de Viçosa (UFV)false |
| dc.title.none.fl_str_mv |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains Filtragem ambiental, competição e facilitação em comunidades de plantas alpinas e florestais de montanhas tropicais |
| title |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains |
| spellingShingle |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains Galván Cisneros, Carlos Mario Ecologia das montanhas Plantas das montanhas Competição (Biologia) Análise cladística CIENCIAS BIOLOGICAS::ECOLOGIA::ECOLOGIA DE ECOSSISTEMAS |
| title_short |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains |
| title_full |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains |
| title_fullStr |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains |
| title_full_unstemmed |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains |
| title_sort |
Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains |
| author |
Galván Cisneros, Carlos Mario |
| author_facet |
Galván Cisneros, Carlos Mario |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Meira Neto, João Augusto Alves http://lattes.cnpq.br/7349372370482607 |
| dc.contributor.author.fl_str_mv |
Galván Cisneros, Carlos Mario |
| dc.subject.por.fl_str_mv |
Ecologia das montanhas Plantas das montanhas Competição (Biologia) Análise cladística CIENCIAS BIOLOGICAS::ECOLOGIA::ECOLOGIA DE ECOSSISTEMAS |
| topic |
Ecologia das montanhas Plantas das montanhas Competição (Biologia) Análise cladística CIENCIAS BIOLOGICAS::ECOLOGIA::ECOLOGIA DE ECOSSISTEMAS |
| description |
Understanding the mechanisms that influence the assembly of natural communities has become a central issue in ecological studies, especially because of the influence of diversity on ecosystem functioning. These mechanisms may be related to niche and neutral processes. Niche-related processes include selection imposed by the abiotic environment and biotic interactions, whereas neutral effects are related to chance or historical events. Mountain ecosystems are among the most suitable models for unraveling the interactions between the facets of biodiversity. The overall aim of this project was to understand the assembly processes of alpine and forest plant communities through phylogenetic and functional diversity across altitudinal gradients in tropical mountains. To respond to this approach, we selected areas from several tropical mountains worldwide. We used lists with altitude records from three tropical montane mountains of tropical ecosystems: Mount Puracé, Colombia; Mount Kilimanjaro, Tanzania; and Mount Haleakalā, Hawaii, USA (CAP. 1). In addition, six sampling sites were established along an elevation gradient of (3200-4100 m). At each station, 10 plots measuring 2.5 m x 4 m were established (CAP. 2 and 3). In addition, 28 isolated individuals of Espeletia lopezii (Asteraceae) were selected; a 70 cm diameter metal ring was centered on each caulescent rosette. In addition, 28 rings were established in the open areas (control) (CAP. 4). The alpha taxonomic diversity was estimated using Hill's numbers (q=0, q=1, q=2) (CAP. 2 and 4). For phylogenetic diversity, six phylogenetic metrics were calculated: lineage diversity as the total length of the phylogenetic branch (PD), mean pairwise phylogenetic distance (MPD), mean nearest taxon phylogenetic distance (MNTD), and standardized effect size of these metrics (CAP. 1, 2 and 4). To determine the functional responses that drive the assembly of communities along the elevation gradient, five functional traits were measured: leaf area, leaf length, leaf thickness, leaf dry matter content, and maximum plant height. The weighted community mean (CWM) of the traits and functional diversity (FD) were estimated (CAP. 3). Different statistical models were used to test the main effects of altitude and soil depth on taxonomic, phylogenetic, and functional metrics. In the three tropical mountains, an environmental filtering effect was observed with increasing altitude, causing phylogenetic clustering, decreasing phylogenetic diversity, and decreasing species richness. The decreasing phylogenetic distances between close relatives are congruent with neo-endemism, suggesting recent diversification of plants at high altitudes in tropical mountains, possibly driven by geographical isolation and environmental heterogeneity (CAP. 1). In Chapter 2, the results showed that as soil depth decreased and altitude increased, páramo plant communities showed a general pattern of decreasing phylogenetic diversity. These results are consistent with the general expectation that community assemblage attributes become more closely related as stressful environmental conditions increase along a gradient. In Chapter 3, the results showed that several functional traits (CWM) and several indices of functional diversity varied significantly along the altitude and soil gradient in the area. Three of the five functional traits showed the potential to describe how the functional composition of páramo communities responded to increasing environmental severity along these environmental gradients. The two functional diversity indices, FDis and FRic, significantly decreased with increasing elevation and decreasing soil depth. In Chapter 4, the vegetation under the canopy of the facilitator plants (E. lopezii) was found to have a positive impact on taxonomic diversity, compared to the control areas. Regarding phylogenetic diversity, the dominant pattern observed was mainly random. These results suggest that, at these altitudes, the metacommunity is strongly filtered by climatic and edaphic factors, and despite the benefits of the facilitation exerted by stem rosettes, it is difficult to detect a pattern of phylogenetic overdispersion. In Chapter 5, as a general trend, a greater number of species were found in locations at higher altitudes, decreasing in locations at lower altitudes, and where climatic seasonality is more marked and filters out species from lineages that are less tolerant to stressful environments. Nitrogen-fixing Fabaceae species were prominent among the important species, especially at low altitudes and more stressful sites. Keywords: Tropical mountains, altitudinal gradient, phylogenetic diversity, functional diversity, plant-plant interaction, community assembly. |
| publishDate |
2024 |
| dc.date.none.fl_str_mv |
2024-08-13T12:06:05Z 2024-03-06 |
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info:eu-repo/semantics/publishedVersion |
| dc.type.driver.fl_str_mv |
info:eu-repo/semantics/doctoralThesis |
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doctoralThesis |
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publishedVersion |
| dc.identifier.uri.fl_str_mv |
GALVÁN CISNEROS, Carlos Mario. Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains. 2024. 162 f. Tese (Doutorado em Botânica) - Universidade Federal de Viçosa, Viçosa. 2024. https://locus.ufv.br/handle/123456789/32576 https://doi.org/10.47328/ufvbbt.2024.233 |
| identifier_str_mv |
GALVÁN CISNEROS, Carlos Mario. Environmental filtering, competition, and facilitation in alpine and forestry plant communities in tropical mountains. 2024. 162 f. Tese (Doutorado em Botânica) - Universidade Federal de Viçosa, Viçosa. 2024. |
| url |
https://locus.ufv.br/handle/123456789/32576 https://doi.org/10.47328/ufvbbt.2024.233 |
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eng |
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eng |
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openAccess |
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Universidade Federal de Viçosa Botânica |
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Universidade Federal de Viçosa Botânica |
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reponame:LOCUS Repositório Institucional da UFV instname:Universidade Federal de Viçosa (UFV) instacron:UFV |
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