Physiological responses of photosynthesis in black pepper plants under different shade levels promoted by intercropping with rubber trees

Oliveira, Marcos Góes; Oliosi, Gleison; Partelli, Fábio Luiz; Ramalho, José C.

doi:10.1590/1413-70542018425020418

Cited by 6 publications

(5 citation statements)

References 36 publications

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“…Protected environments influenced the most variables; there was a difference among the containers only for plant height at 30 DAT, stem diameter at 15 and 30 DAT, and number of flowers at 90 DAT ( Table 2). The shading levels of the protected environment affected pepper cultivation more than the color of pots, as greater shading favored growth, development, and production of the plants, in agreement with Zhu et al (2012) and Oliveira et al (2018), who had verified that this species adapted better in shaded environments. TABLE 2.…”

Section: Resultssupporting

confidence: 75%

Growth of Ornamental Pepper in Colored Containers Under Protected Environments

et al. 2020

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Ornamental pepper plants produced in containers under protected environments have high added value. We carried out research with an aim to evaluate the growth and development of ornamental pepper in containers of different colors under two protected environments, both with thermal-reflective screens under a polyethylene film: one with 18-22 % shading and the other with 42-50 % in colored containers (brown, blue, black, and red). The treatments formed by a 2 × 4 factorial (environments × container colors) were arranged in a completely random pattern with 4 replications and 5 plants per plot, and a joint analysis of experiments was used to compare environments. The protected environment covered with low-density polyethylene film having 42-50 % of shading promoted higher initial growth of pepper plants, including early maturity, compared to the protected environment with 18-22 % of shading. The colored containers, namely, the brown container in a protected environment with 42-50 % shading and red container with 18-22 % shading formed plants with better growth and yield characteristics compared to the black container. The seedlings in the blue container had delayed flowering.

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Section: Resultssupporting

confidence: 75%

Growth of Ornamental Pepper in Colored Containers Under Protected Environments

et al. 2020

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“…Besides, other factors, this behavior can be explained by photoassimilate production reductions (Tatagiba, Pezzopane, & Reis, 2015) due to stomatal closure under water deficit conditions (Peloso, Tatagiba, & Amaral, 2017), limiting vegetative crop growth. This could be observed in various crops such as black pepper (Piper nigrum), bell pepper (Capsicum annuum), lilac (Syringa oblata), and euonymus (Euonymus japonicus) (Oliveira, Oliosi, Partelli, & Ramalho, 2018;Sui, Mao, Wang, Zhang, & Zhang, 2012;Wu, Chow, Liu, Shi, & Jiang, 2014). Our results demonstrate that the water irrigation volume applied to meet crop water needs (100% by SIC) favored black pepper growth.…”

Section: Vegetative Growth Parameterssupporting

confidence: 51%

Morphophysiological changes in black pepper under different water supplies

et al. 2023

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The center of origin and domestication of Piper nigrum L. are in high rainfall regions. But when grown in regions with irregular or insufficient rainfall, irrigation becomes essential. This study evaluated the impact of irrigation levels on the physiological and growth characteristics of black pepper plants, cv. Bragantina. It was carried out from April 2019 to May 2020, using automatic activation irrigation. We used emitters with different flow rates to apply water depths corresponding to 100, 81, 62, and 42% of the crop water requirement. The parameters evaluated comprised main stem length (MSL), stem diameter (SD), number of leaves (NL), leaf area (LA), chlorophyll contents, chlorophyll-a fluorescence, and some photosynthetic parameters. The treatments significantly influenced (p < 0.05, F-test) MSL and NL. Plants submitted to the control treatment showed MSL (65.8%) and NL (123%) greater than those irrigated with the smallest volume (p < 0.05, F-test). However, the treatments had no significant effect on SD. Moreover, chlorophyll b levels decreased by 26% and chlorophyll a/b ratio increased by 22% at 120 and 180 DAT, respectively. Some photosynthetic parameters such as FV/FM, ABS/RC, and DI0/RC were affected by water deficit at 120 DAT. Our results suggest the sensitivity of black peppers to water deficit and contribute to the proper management of this crop.

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“…Thus, from the results of the present research, it is inferred that, at least in part, the cultivation with a live tutor of G. sepium associated with the supply of adequate amounts of N can benefit the black pepper in periods of the year of lower water regime. Oliveira et al (2018), when evaluating physiological responses to photosynthesis in black pepper plants in intercropping with rubber trees, observed that in summer, there was lower temperature and higher A value in treatments with rubber trees 2 and 5 meters away from the pepper tree, when compared to A values in plants in full sun, suggesting that during the warmer periods of the year shade can improve the photosynthetic functioning of black pepper, as previously reported for other species (Dai et al,, 2009;Zhu et al, 2012). It is well known that shading causes microclimatic changes in many agricultural crops, especially in plants located in rows closest to trees, resulting in physiological and growth changes (Partelli et al, 2014;Araújo et al, 2016;, which agrees with the findings of the present study since the SL, due to its crown, promotes certain shading of the black pepper tree.…”

Section: Discussionmentioning

confidence: 99%

“…Measurements were performed between 9 and 11 h, under ambient CO 2 concentration (c.a. 398 µmol CO 2 mol −1 ) and under saturating photosynthetically active radiation of 1,000 µmol m -2 s -1 (Oliveira et al, 2018;Silvestre et al, 2017). The instantaneous water use efficiency (WUE) was estimated as the quotient between A and E (Hatfield et al, 2011).…”

Section: Leaf Gas Exchangementioning

confidence: 99%

Nitrogen effects on leaf gas exchange, vegetative growth and yield of black pepper plants using Gliricidia sepium as living support

Rubia¹,

Hugo²,

Edilson³

et al. 2023

Afr. J. Agric. Res.

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For the implantation of one hectare of black pepper (Piper nigrum), about 25 to 30 trees are removed from the Amazon Forest to produce tutors for black pepper. As an alternative to the dead wooden stake (WS), there is sustainable cultivation of black pepper with tree species, with the living supports (LS) of gliricídia (Gliricidia sepium L.). However, there is inadequate technical information on the effect of black pepper cultivation with tree species on the growth, physiology, and production of the culture. Therefore, the objective of this study is to evaluate the vegetative growth, physiology, and production of black pepper, cultivated in a LS subjected to doses of nitrogen (N). The experiment was carried in a randomized design blocks, in split plots, with three replications in a field. The plots consisted of two tutors (dead tutor and live tutor of G. sepium) and the subplots consisted of increasing doses of N (10, 20, 40 and 60g N plant -1 ). The results indicated that black pepper plants in WS stand out in terms of initial growth; however, at the end of the first year of black pepper cultivation with LS tends to present a vegetative growth slightly like the cultivation with a WS. The production of green pepper was higher in cultivation with G. sepium, while in terms of dry pepper there was no distinction between the tutors, with only N doses affected, which was estimated at 37 g N plant -1 to obtain the highest productivity of dry pepper.

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Physiological responses of photosynthesis in black pepper plants under different shade levels promoted by intercropping with rubber trees

Cited by 6 publications

References 36 publications

Growth of Ornamental Pepper in Colored Containers Under Protected Environments

Growth of Ornamental Pepper in Colored Containers Under Protected Environments

Morphophysiological changes in black pepper under different water supplies

Nitrogen effects on leaf gas exchange, vegetative growth and yield of black pepper plants using Gliricidia sepium as living support

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