Temperatura e radiação solar na produção de mudas de cedro australiano

Schwerz, Felipe; Eloy, Élder; Elli, Elvis Felipe; Caron, Braulio Otomar; Paula, Gizelli Moiano de

doi:10.18671/scifor.v47n124.15

Cited by 2 publications

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“…There was no clear trend in relation to the season, since higher means were observed in both autumn and spring for the different characteristics (Table 3), showing that the sowing time was not a factor that influenced the production of T. stans seedlings. However, it should be noted that plants change their morphology according to soil and climatic conditions, and as there is an increase in solar radiation, the greater the rate of emission and expansion of leaves and, consequently, the greater the leaf area index, increasing the leaf efficiency in converting photosynthetically active radiation into phytomass (Schwerz et al, 2019).…”

Section: Resultsmentioning

confidence: 99%

Sowing time and substrate in the production of ipê-mirim seedlings

et al. 2022

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Tecoma stans is popularly known as ipê-mirim in Brazil. This species belongs to the Bignoniaceae family and it is native to Americas and Antilles, where it is widely used in landscaping as urban tree. The seedlings are produced from seeds and there are several factors that influences its development, such as the sowing time and the substrate. This work aimed to understand the effect of the sowing time and substrates on the production of Tecoma stans seedlings. The experiments were carried out in a nursery. The experimental design was completely randomized. The substrates were arranged in a 2 × 6 factorial scheme, two sowing times (autumn and spring) and six commercial substrates (SC1; SC2; SC3; SC4; sand and vermiculite) under four replicates and ten seedlings per plot. The means were compared to each other using the Tukey test (p < 0.05). There was a significant difference between the seasons of the year, showing that the percentage of emergence was higher in spring (89%). The seedlings of Tecoma stans were shown to be nutrient-dependent both in the emergence of the seedling and in the subsequent development of the seedlings, since the highest averages of the studied characteristics were obtained in the commercial substrates, as they have nutrients in their composition, with greater emphasis on SC1.

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Section: Resultsmentioning

confidence: 99%

Sowing time and substrate in the production of ipê-mirim seedlings

et al. 2022

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“…The estimate of IPAR was determined using the model described by Varlet-Grancher et al (1989). The extinction coefficients used for the study were those found 3 -11 by Schwerz et al (2019): values of 0.18 and 0.13 for high and medium densities, respectively.…”

Section: Radiation Use Efficiency and Leaf Area Indexmentioning

confidence: 99%

Effects of Artificial Shading and Plant Density on Corymbia Citriodora Seedling Characteristics

Nardini¹

2022

Floresta Ambient.

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The objective of this work was to evaluate the influence of colored shade mesh and plant density on the morphological characteristics of Corymbia citriodora seedlings. The highest radiation efficiency was found in the blue mesh, 7.01 g MJ -1 and 5.72 g MJ -1 for average and high density respectively. For dry matter and leaf area index at high density, the treatment without mesh followed by the red mesh was the best. The chlorophyll index did not differ between treatments, with mean values of 206.4, 59.1 and 262.0 for chlorophyll a, b and total, respectively. Using principal component analysis, we found the total variance to be 70%. The use of colored shade mesh and plant density altered the radiation use efficiency and dry matter accumulation. Leaf area index was affected only by plant density. The red mesh resulted in the most similar values to the treatment without mesh.

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Temperatura e radiação solar na produção de mudas de cedro australiano

Cited by 2 publications

References 20 publications

Sowing time and substrate in the production of ipê-mirim seedlings

Sowing time and substrate in the production of ipê-mirim seedlings

Effects of Artificial Shading and Plant Density on Corymbia Citriodora Seedling Characteristics

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