RESUMO:Realizou-se estudo com o objetivo de analisar as alterações na anatomia foliar de Gallesia integrifolia (Spreng) Harms e Schinnus terebinthifolius Raddi quando cultivadas em ambientes de sombra moderada ou densa, simulando as condições naturais encontradas em sistemas agroflorestais tradicionais do sul da Bahia, Brasil. Plantas das duas espécies, com aproximadamente um ano de idade, foram cultivadas em casa de vegetação sob quatro níveis de sombreamento (25%, 17%, 10% e 5%). Estudos anatômicos do limbo foliar foram realizados a partir de material incluído em parafina e seccionado em micrótomo rotativo. Os diferentes níveis de sombreamento ocasionaram alterações na estrutura do mesofilo de ambas as espécies, com diferenças significativas na espessura do parênquima paliçádico, limbo foliar, e densidade estomática. Nas condições em que o experimento foi realizado os resultados obtidos indicaram que G. integrifolia apresenta maior capacidade de aclimatação a ambientes de sombra moderada e densa do que S. terebinthifolius, sendo mais indicada para o cultivo em sistemas agroflorestais pré-estabelecidos.Palavras chaves: Gallesia integrifolia, Schinnus terebinthifolius, anatomia foliar, sistemas agroflorestais. ABSTRACT: Effects of shading on leaf anatomy of Gallesia integrifolia (Spreng)Harms and Schinnus terebinthifolius Raddi. This study was conducted with the aim of analyzing the changes in the leaf anatomy of Gallesia integrifolia (Spreng) Harms and Schinnus terebinthifolius Raddi when grown in environments with moderate to dense shade, simulating the natural conditions found in traditional agroforestry systems in southern Bahia, Brazil. Plants of both species, being approximately one year-old, were grown at four irradiance levels (25%, 17%, 10% and 5%) in a greenhouse. Leaf anatomical studies were made from material embedded in paraffin and sectioned on a rotary microtome. The different irradiance levels caused a shift in the mesophyll anatomy of both species, with significant differences in palisade parenchyma thickness and leaf stomatal density. In the conditions of this experiment, the results indicated that G. integrifolia has a higher capacity for acclimatization to moderate to dense shade than S. terebinthifolius, and it is thus more suitable for cultivation in pre-established agroforestry systems.
The aim of the present study was to calibrate a multi-species model for assessing leaf chlorophyll content in seedlings of six Neotropical rainforest tree species. Two hand-held chlorophyll absorbance meters (SPAD-502 and ClorofiLog) and the chlorophyll normalized difference leaf reflectance index (
Euterpe edulis Mart. (Arecaceae) is a threatened palm tree of the Brazilian Atlantic Rainforest understory with fundamental importance for the restoration of degraded forest environments. We assessed the leaf gas exchange, growth and survival of E. edulis seedlings transplanted at three different forest sites (S1, S2 and S3) in the same area in which cocoa trees had been cultivated in a rustic agroforestry system. Measurement was carried out during the first year after seedling transplantation. The sites were characterised according to canopy openness (CO) and total daily photosynthetic photon flux density (PPFD). Average CO and PPFD values were 13.3%, 8.0% and 6.7%, and 3.34, 2.79 and 0.62 mol m −2 d −1 for S1, S2 and S3, respectively. A progressive decline in seedling survival was observed in all sites throughout the experiment. At 387 d after planting, survival at S1, S2 and S3 was 57%, 44% and 37%, respectively. The gross light-saturated photosynthetic rate (A max ), leaf area and plant biomass were significantly higher (P < 0.05) in S1 and S2 when compared with S3. The values of dark respiration rate (R d ) and photosynthetic compensation irradiance (I c ) were sufficiently low for a positive carbon balance. Notwithstanding, the interpretation of results of microclimate variables together with leaf gas exchange and growth variables indicated that seedlings at all sites were in a suboptimal condition to achieve A max , which is probably the main cause of the dramatic decline in the seedlings' survival throughout the first year after transplantation. From a practical point of view, if the values of CO and PFD are lower than 10% and 3 mol m −2 d −1 , respectively, it is suggested that the transplanting of E. edulis seedlings to the understory of abandoned agroforestry systems be accompanied by cultural practices, such as the thinning and pruning of tree tops.
Com o objetivo de estudar alguns fatores fisiológicos envolvidos na formação e desenvolvimento de raízes em mudas de goiabeira serrana (Feijoa sellowiana Berg), multiplicadas por mergulhia de cepa, foi realizado um experimento em Pelotas-RS, com mudas decepadas em julho de 91 e sobre as quais foi realizada amontoa em outubro de 91. A avaliação foi feita em agosto de 92, sendo observadas as variáveis: teor de clorofila total, área foliar, numero e diâmetro de brotações, número e percentagem de brotações enraizadas e peso da matéria seca das raízes. As variáveis teor de clorofila, área foliar e diâmetro médio das brotações não apresentaram influência sobre a matéria seca das raízes. O incremento no número de brotações causou um aumento no número de brotações enraizadas, entretanto, não apresentou influência na percentagem de brotações enraizadas. O aumento no número de brotações por cepa ocasionou um decréscimo em seu diâmetro médio. É demonstrado que é possível multiplicar plantas de goiabeira serrana através de mergulhia de cepa.
Net photosynthetic (A) and leaf transpiration (E) rates and stomatal conductance to water vapour (gs) of Malayan Yellow Dwarf (MYD) and Brazilian Green Dwarf (BGD) coconut accessions (Cocos nucifera var. ‘nana’ L.) were studied and discussed in terms of the technical aspects related to light-response curves in field conditions. Measurements of gas exchange were performed during four days, in April and may 2000, at the Cocoa Research Center Experimental Station (Una - BA, Brazil). The A, gs and E parameters were significantly (P < 0.05) different between the two genotypes. The mean maximum values of A, gs and E were 10.4 and 12.0 µmol CO2 m-2 s-1, 0.21 and 0.35 mol H2O m-2 s-1 and 3.07 and 3.69 mmol m-2 s-1 for MYD and BGD, respectively. For both genotypes a good fitting of the light-response curve models were obtained, indicating that A and gs were dependent of the photosynthetically active radiation incident on leaf surface (Qi), in spite of high genotipic variation. Interesting results were achieved when an empirical multiplicative model was used. The model relating A or gs with Qi and with leaf-to-air water vapour pressure deficit inside the chamber (VPDL) was tested for both genotypes and showed a negative influence of the latter on the stomatal behavior and consequently on A. Such effect was more pronounced in BGD than in MYD. These and others relationships involving leaf gas exchange and microclimatic variables in coconut palm trees are discussed
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