RESUMO

Studies in the long-term recruitment and mortality of mangrove seedlings can help to understand mangrove demography and its relationship with climatic variables, environmental restoration and advances in the ecology of this ecosystem. A seven-year population dynamics study of seedling recruitment and mortality in cohorts of Rhizophora mangle L. was carried out to identify expansion processes and patterns of survival in the understory of mangrove forests on the Atlantic coast of Brazil. The present study aimed to evaluate the relationship between recruitment and mortality R. mangle seedlings at the population level, salinity, and climatic variables (precipitation, temperature and humidity). On an annual scale, seedling recruitment was positively correlated with mean temperature. Seedling density was negatively correlated with the number of recruits and positively with the number of deaths. The number of recruits was associated with dead seedlings, temperature and precipitation considering a population scale, without grouping the data. The seedling density in the stands increased with the number of dead seedlings. Our findings described the relationship between climate variability (durability and magnitude of the dry/rainy season) and the long-term population dynamics of R. mangle seedlings in a poorly studied region and from what moment, on a monthly and annual time scale, did this relationship become significant and changes occur. The findings of this study provide information on the population dynamics of the species that will help in understanding mangrove demography. These results have important implications for projections about the recruitment and survival of the species thinking about to long-term climate change that will modify current weather patterns and mangrove conservation efforts.

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RESUMO

Abstract Mangrove communities were selected in the state of Santa Catarina, Brazil, near their southernmost limit of distribution, to study mineral nutrient relation in soils and plants. Communities included three true mangrove species, Rhizophora mangle, Laguncularia racemosa and Avicennia germinans, and two associated species, the fern Acrostichum danaeifolium, and the grass Spartina densiflora. The sites included communities in the lower Río Tavares near Florianopolis city, Sonho beach near Palhoça city, and the Santo Antonio lagoon. These sites included a full range of mangroves under humid climate where winter temperatures, instead of salinity, may be the main factor regulating their productive capacity and species composition. Soil salinity was determined by the concentration of soluble Na, and soil C and N were linearly correlated indicating their association in organic matter. Tavares site showed higher specific conductivity, and concentrations of Na and Mg in the soil layer below 40 cm depth, indicating larger influence of marine water. Isotopic signature of C increased with soil depth suggesting that microorganisms decomposing organic matter are releasing 13C depleted CO2. Nitrogen isotopic signature decreased with soil depth, indicating enrichment in 15N possibly as a result of denitrification in the upper soil layers. Mineral elements in leaf tissues showed A. schaueriana with higher concentrations of N, P, Na, K, Cu, Zn, and Na/Ca ratio. Spartina densiflora was characterized by the lowest N and K concentrations, and the highest concentrations of Al and Fe. Rhizophora mangle and L. racemosa had the highest Ca concentrations. Carbon isotopic signatures identified S. densiflora as a C4 plant, and A. schaueriana as the mangrove species occupying comparatively more water stressed microsites than the rest. Leaf nitrogen isotopic signatures were positive, in correspondence with the soil values. The results support the hypothesis that sites sampled were comparatively fertile, because sediment transport through fresh water run-off is predominant in humid coasts, and therefore plants were not limited by nutrient supply, nor particularly stressed by soil salinity.

Resumo Foram selecionadas florestas de mangue próximas ao limite sul de distribuição dos manguezais, no estado de Santa Catarina, Brasil, para o estudo do conteúdo de nutrientes no solo e em tecido vegetal. As comunidades estudadas eram compostas por três espécies típicas de mangue: Rhizophora mangle, Laguncularia racemosa e Avicennia germinans, e duas espécies associadas: a samambaia-do-brejo, Acrostichum danaeifolium, e a herbácea Spartina densiflora. Os locais de estudo incluiram comunidades no curso inferior do Rio Tavares na cidade de Florianópolis; Praia do Sonho, próxima à cidade de Palhoça e a Lagoa de Santo Antonio. Esses locais incluiram manguezais submetidos a clima úmido, onde as temperaturas do inverno, mais do que a salinidade, são o principal fator regulador da capacidade produtiva do sistema e da composição de espécies. A salinidade do solo foi determinada pela concentração de Na solúvel. Os conteúdos de Carbono e Nitrogênio no solo apresentaram correlação linear, indicando sua associação na matéria orgânica. A área do Rio Tavares apresentou maior influência marinha evidenciada pelas altas condutividade específica e concentrações de Na e Mg nas camadas do solo abaixo de 40 cm de profundidade. A assinatura isotópica do C aumentou com a profundidade no solo, o que sugere que microorganismos decompositores da matéria orgânica estão liberando CO2 pobre em 13C. A assinatura isotópica do Nitrogênio diminui com a profundidade do solo, indicando enriquecimento em 15N, possivelmente como resultado de processo de denitrificação nos níveis superiores do solo. Os tecidos foliares de A. schaueriana apresentaram as maiores concentrações de N, P, Na, K, Cu, Zn, e da razão Na/Ca. Spartina densiflora apresentou as menores concentrações de N e K e as maiores concentrações de Al e Fe. Rhizophora mangle e L. racemosa apresentaram as maiores concentrações de Ca. Os resultados da assinatura isotópica de Carbono identificam S. densiflora como uma planta C4 e A. schaueriana como a espécie de mangue que ocupa os locais com maior estresse hidrico. As assinaturas isotópicas do Nitrogênio foram positivas, estando de acordo com os valores observados para o solo. Os resultados sustentam a hipótese de que os locais estudados são fertéis, pois o escoamento superficial de água doce é predominante em costas úmidas e, portanto, as plantas não estão sujeitas à limitação por aporte de nutrientes e não estão submetidas a estresse salino.

Assuntos

RESUMO

Mangrove communities were selected in the state of Santa Catarina, Brazil, near their southernmost limit of distribution, to study mineral nutrient relation in soils and plants. Communities included three true mangrove species, Rhizophora mangle, Laguncularia racemosa and Avicennia germinans, and two associated species, the fern Acrostichum danaeifolium, and the grass Spartina densiflora. The sites included communities in the lower Río Tavares near Florianopolis city, Sonho beach near Palhoça city, and the Santo Antonio lagoon. These sites included a full range of mangroves under humid climate where winter temperatures, instead of salinity, may be the main factor regulating their productive capacity and species composition. Soil salinity was determined by the concentration of soluble Na, and soil C and N were linearly correlated indicating their association in organic matter. Tavares site showed higher specific conductivity, and concentrations of Na and Mg in the soil layer below 40 cm depth, indicating larger influence of marine water. Isotopic signature of C increased with soil depth suggesting that microorganisms decomposing organic matter are releasing 13C depleted CO2. Nitrogen isotopic signature decreased with soil depth, indicating enrichment in 15N possibly as a result of denitrification in the upper soil layers. Mineral elements in leaf tissues showed A. schaueriana with higher concentrations of N, P, Na, K, Cu, Zn, and Na/Ca ratio. Spartina densiflora was characterized by the lowest N and K concentrations, and the highest concentrations of Al and Fe. Rhizophora mangle and L. racemosa had the highest Ca concentrations. [...](AU)

Foram selecionadas florestas de mangue próximas ao limite sul de distribuição dos manguezais, no estado de Santa Catarina, Brasil, para o estudo do conteúdo de nutrientes no solo e em tecido vegetal. As comunidades estudadas eram compostas por três espécies típicas de mangue: Rhizophora mangle, Laguncularia racemosa e Avicennia germinans, e duas espécies associadas: a samambaia-do-brejo, Acrostichum danaeifolium, e a herbácea Spartina densiflora. Os locais de estudo incluiram comunidades no curso inferior do Rio Tavares na cidade de Florianópolis; Praia do Sonho, próxima à cidade de Palhoça e a Lagoa de Santo Antonio. Esses locais incluiram manguezais submetidos a clima úmido, onde as temperaturas do inverno, mais do que a salinidade, são o principal fator regulador da capacidade produtiva do sistema e da composição de espécies. A salinidade do solo foi determinada pela concentração de Na solúvel. Os conteúdos de Carbono e Nitrogênio no solo apresentaram correlação linear, indicando sua associação na matéria orgânica. A área do Rio Tavares apresentou maior influência marinha evidenciada pelas altas condutividade específica e concentrações de Na e Mg nas camadas do solo abaixo de 40 cm de profundidade. A assinatura isotópica do C aumentou com a profundidade no solo, o que sugere que microorganismos decompositores da matéria orgânica estão liberando CO2 pobre em 13C. A assinatura isotópica do Nitrogênio diminui com a profundidade do solo, indicando enriquecimento em 15N, possivelmente como resultado de processo de denitrificação nos níveis superiores do solo. Os tecidos foliares de A. schaueriana apresentaram as maiores concentrações de N, P, Na, K, Cu, Zn, e da razão Na/Ca. Spartina densiflora apresentou as menores concentrações de N e K e as maiores concentrações de Al e Fe. Rhizophora mangle e L. racemosa apresentaram as maiores concentrações de Ca. [...](AU)

Assuntos

RESUMO

Mangrove communities were selected in the state of Santa Catarina, Brazil, near their southernmost limit of distribution, to study mineral nutrient relation in soils and plants. Communities included three true mangrove species, Rhizophora mangle, Laguncularia racemosa and Avicennia germinans, and two associated species, the fern Acrostichum danaeifolium, and the grass Spartina densiflora. The sites included communities in the lower Río Tavares near Florianopolis city, Sonho beach near Palhoça city, and the Santo Antonio lagoon. These sites included a full range of mangroves under humid climate where winter temperatures, instead of salinity, may be the main factor regulating their productive capacity and species composition. Soil salinity was determined by the concentration of soluble Na, and soil C and N were linearly correlated indicating their association in organic matter. Tavares site showed higher specific conductivity, and concentrations of Na and Mg in the soil layer below 40 cm depth, indicating larger influence of marine water. Isotopic signature of C increased with soil depth suggesting that microorganisms decomposing organic matter are releasing 13C depleted CO2. Nitrogen isotopic signature decreased with soil depth, indicating enrichment in 15N possibly as a result of denitrification in the upper soil layers. Mineral elements in leaf tissues showed A. schaueriana with higher concentrations of N, P, Na, K, Cu, Zn, and Na/Ca ratio. Spartina densiflora was characterized by the lowest N and K concentrations, and the highest concentrations of Al and Fe. Rhizophora mangle and L. racemosa had the highest Ca concentrations. Carbon isotopic signatures identified S. densiflora as a C4 plant, and A. schaueriana as the mangrove species occupying comparatively more water stressed microsites than the rest. Leaf nitrogen isotopic signatures were positive, in correspondence with the soil values. The results support the hypothesis that sites sampled were comparatively fertile, because sediment transport through fresh water run-off is predominant in humid coasts, and therefore plants were not limited by nutrient supply, nor particularly stressed by soil salinity.

Assuntos