Marina Shinkai Gentil Otto scite author profile

Marina Shinkai Gentil Otto

4Publications

56Citation Statements Received

47Citation Statements Given

How they've been cited

123

How they cite others

Affiliations

Universidade de São Paulo, Forest Science and Research Institute, Universidade Brasil

Publications

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Fotossíntese, condutância estomática e produtividade de clones de Eucalyptus sob diferentes condições edafoclimáticas

Otto

Vergani²,

Gonçalves

et al. 2013

Rev. Árvore

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e José Luiz Stape 5 RESUMO -O objetivo deste trabalho foi avaliar a fotossíntese, condutância estomática e produtividade de clones de Eucalyptus em duas áreas distintas: uma no Município de Eunápolis, Sul da Bahia, com precipitação bem distribuída ao longo do ano (área úmida); e outra em Salto da Divisa, Leste de Minas Gerais, com precipitação concentrada nos meses quentes do ano (área seca). Foram estudados quatro clones, avaliando-se o crescimento, através do inventário das árvores; e as variáveis fotossintéticas, medidas com o aparelho Infrared Gas Analyser (IRGA). Dentro de cada área só houve diferença significativa entre clones na área úmida quanto à variável volume de madeira. A produtividade dos clones na área úmida foi 3,3 vezes superior à produtividade da área seca. Na área úmida, todos os clones diminuíram a condutância estomática com o aumento do déficit de pressão de vapor, com queda de 0,16 mol m² s -1 para cada 1 kPa de aumento no DPV e taxa fotossintética máxima variando de 12,5 a 16,4 µmol m² s -1. A comparação entre os clones da área úmida resultou em diferença significativa do clone A, que apresentou fotossíntese máxima superior à dos demais. Na área seca não houve relação entre condutância estomática e DPV e não se observou diferença na fotossíntese entre os clones, que variou de 1,2 a 3,4 µmol m 2 s -1 . Verificou-se relação linear entre a fotossíntese máxima e a produtividade dos clones, evidenciando que a taxa fotossintética foi um dos fatores responsáveis pela maior produtividade do Eucalyptus na área úmida.Palavras-chave: Eucalipto; Produtividade; Estresse hídrico. PHOTOSYNTHESIS, STOMATAL CONDUCTANCE AND PRODUCTIVITY OF Eucalyptus CLONES UNDER DIFFERENT SOIL AND CLIMATIC CONDITIONS

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Dominant clonal Eucalyptus grandis × urophylla trees use water more efficiently

Otto

Hubbard

Binkley

et al. 2014

Forest Ecology and Management

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Guidelines for calibration in analytical chemistry. Part 2: Multicomponent calibration (IUPAC Technical Report)

Danzer¹,

Otto²,

Currie³

2004

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Calibration in analytical chemistry refers to the relation between sample domain and measurement domain (signal domain) expressed by an analytical function x = fs(Q) representing a pattern of chemical species Q and their amounts or concentrations x in a given test sample on the one hand and a measured function y = f(z) that may be a spectrum, chromatogram, etc. Simultaneous multispecies analyses are carried out mainly by spectroscopic and chromatographic methods in a more or less selective way. For the determination of n species Qi (i = 1,2 …n), at least n signals must be measured which should be well separated in the ideal case. In analytical practice, the situation can be different.

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Fertilization Response, Light Use, and Growth Efficiency in Eucalyptus Plantations across Soil and Climate Gradients in Brazil

Silva

Hakamada

Bazani³

et al. 2016

Forests

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Fertilization increases productivity in Eucalyptus plantations, but losses in productivity associated with soil fertility continue at operational scales. In this study, we evaluated the fertilization response (FR), light use efficiency (LUE) and growth efficiency (GE), i.e., the amount of wood biomass accumulated per unit of light absorbed (LUE) and per unit of leaf area index of Eucalyptus plantations. We used a "twin plot" approach, with 161 blocks representing 52,700 ha of planted forests that spanned a broad range of edaphoclimatic conditions in southeastern Brazil. The normal plots (NP) were part of a permanent inventory network, whereas the twin plots (TP) received extra high levels of fertilization and extra weed control after fertilization. The intensive management (twin plots) led to a large increase of 5.3 Mg¨ha´1¨year´1 of wood increment. The region without dry periods and with soils with high clay content was most responsive to fertilization, with a 15% increment in the LUE and 10% increase in the GE of the TPs compared with those of the NPs. Our results suggested that water availability was the primary element affecting productivity and potential response to fertilization. With this information, decisions can be made on which regions should receive priority fertilization investments. However, more research is required to determine the most limiting nutrient in each type of environment.

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