Software for interpolation of vegetative growth of yerba mate plants in 3D

Silva, Murilo Hilário Mazza da; Rakocevic, Miroslava

doi:10.1590/s0100-204x2010000300003

Cited by 4 publications

(5 citation statements)

References 19 publications

(23 reference statements)

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“…The biennial growth of yerba-mate plants cultivated in MO was influenced strongly by GDD in males, while NL affected growth parameters of both genders, and strongly influenced the leafy axis growth even in an environment more like the yerba-mate's natural habitat (FUS). The crucial role of the cultivation system in the modification of yerba-mate production (Rakocevic et al 2006c), leaf and plant photosynthesis, and sexual dimorphism has been demonstrated (Silva and Rakocevic 2010). Yerba-mate growth modifications affected by environment were much more pronounced when plants were grown in a cultivation system that is less like the yerba-mate's natural habitat (MO) compared to those grown under FUS.…”

Section: Discussionmentioning

confidence: 99%

“…Adult yerba-mate plants respond strongly to high-light conditions (monoculture), where they show more intensive leaf emission and leaf area formation than when grown under the forest understorey (FUS; Rakocevic et al 2006a). Yerbamate leaf physiology changes when plants are grown in monoculture (Rakocevic et al 2009;Silva and Rakocevic 2010), and this strongly affects the characteristics of obtained 'chimarrão' (Rakocevic et al 2008).…”

Section: Introductionmentioning

confidence: 99%

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Time series in analysis of yerba-mate biennial growth modified by environment

Rakocevic

Martim

2010

Int J Biometeorol

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To assess differences in the lag-effect pattern in the relationship between yerba-mate biennial growth and environmental factors, a time-series analysis was performed. A generalized Poisson regression model was used to control time trends, temperature, growing degree days (GDD), rainfalls and night length (NL). It was hypothesized that the active growth and growth pauses in yerba-mate are controlled endogenously and modified by environment, and that genders would respond differently to environmental modifications. The patterns in the lag effect from the distributed-lag models were similar to those of time-series models with meteorological data means with lag = 0. GDD and NL were principal factors affecting biennial yerba-mate shoot elongation and the number of green leaves of females grown in monoculture, besides their significant effects on metamer emission and leaf area in males grown in monoculture. NL also had a significant influence on shoot elongation and leaf area of both genders grown in forest understorey (FUS), indicating that yerba-mate growth is synchronized by an internal clock sensitive to temperature adjustments. The morphological plasticity and the adaptation efforts of yerba-mate were more pronounced in monoculture than in FUS. Sexual dimorphism was expressed-males were more sensitive to environmental changes than females, especially in monoculture. Growth modifications were much more intense when plants were grown in a cultivation system that is less like yerba-mate natural habitat (monoculture) than in one resembling its natural habitat (FUS). Our data support the ecological specialization theory.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Time series in analysis of yerba-mate biennial growth modified by environment

Rakocevic

Martim

2010

Int J Biometeorol

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“…Knowledge of yerba-mate SSD initiated with gender segregation in leaf gas exchanges (Rakocevic et al, 2007a(Rakocevic et al, , 2009, leaf chemical composition (Pauli et al, 2019;Rakocevic et al, 2007b;Tormena et al, 2020), beverage sensorial quality (Rakocevic et al, 2008a), plant growth, and architecture (Guédon et al, 2018;Matsunaga et al, 2014;Rakocevic et al, 2008b;Silva and Rakocevic, 2010). Biomass production does not differ between two genders (Rakocevic et al, 2007b), regardless of the system of yerba-mate cultivation, monoculture (full sunlight cultivation), or agroforestry production under shaded conditions (Matsunaga et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Secondary sexual dimorphism in biomass production of Ilex paraguariensis progenies associated with their provenances and morphotypes

Rakocevic

Maia²,

Duarte

et al. 2023

Ex. Agric.

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Summary Secondary sexual dimorphism (SSD) in flowering plants is expressed as differences in sexual characteristics that are not directly related to gamete production, involving a wide variety of morphological and physiological traits. Yerba mate (Ilex paraguariensis) is an evergreen dioecious tree native to South America. It was hypothesized that: (1) in early years, the two yerba-mate genders would segregate with lower frequency in biomass production than during later years; (2) in the case of SSD, higher biomass production would be seen for female plants when compared to male plants at a more advanced age; (3) higher SSD would appear in morphotypes that represent leaf adaptations to full sunlight cultivation; and (4) progenies originated from provenances from higher altitudes will show greater SSD in biomass production. One experiment with 135 progenies originated from six provenances with different altitudes was established in 1997 in a monoculture (under full sunlight conditions). Biomass production (leaves and thin twigs) per plant was evaluated during four harvests (1999, 2001, 2003, and 2015). The frequency of SSD in biomass production did not change throughout the plant’s life. Males were more productive than females in 1999, 2001, and 2003, while the increased frequency of more productive female plants was observed during the most recent harvest (2015), resulting in an equal frequency of female and male progenies. Sexual segregation was observed in dully green, sassafras, and gray morphotypes that are characterized by their waxy leaf structures, an adaptation to elevated irradiance and UV. As a result of adaptative responses to stressful conditions and elevated interplant variability, the relationship between SSD and biomass production of progenies originated from the highest altitudes segregated with higher frequency when compared to the lowest altitudes.

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“…SSD in leaf area and light interception are related to leaves positioned in the lowest plant layers . However, sexual responses strongly depend on the environment, especially light conditions, with some opposite effects observed in female and male plants (internode length and individual leaf size), according to whether they were cultivated in MO or in AFS, under high-or lowlight conditions, respectively (Rakocevic et al, 2008;Rakocevic & Martim, 2011;Silva & Rakocevic, 2010).…”

Section: Introductionmentioning

confidence: 99%

“…SSD in leaf area and light interception are related to leaves positioned in the lowest plant layers (Rakocevic et al, 2011). However, sexual responses strongly depend on the environment, especially light conditions, with some opposite effects observed in female and male plants (internode length and individual leaf size), according to whether they were cultivated in MO or in AFS, under high‐ or low‐light conditions, respectively (Rakocevic et al, 2008; Rakocevic et al, 2011; Rakocevic & Martim, 2011; Silva & Rakocevic, 2010). Optimized foliage structure and physiology in females are found to compensate for greater reproductive costs in early developmental stages in one yerba‐mate native population, but females and males were similar in terms of photosynthetic efficiency after 2‐years of regrowth (Rakocevic et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Canopy architecture and diurnal CO₂ uptake in male and female clones of yerba‐mate cultivated in monoculture and agroforestry

Rakocevic,

Batista,

Matsunaga

et al. 2023

Annals of Applied Biology

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Secondary sexual dimorphism (SSD) in flowering plants is expressed by sexual differences of characters that are not directly related to gamete production. The leaf C/N ratio, photosynthetic traits or clonal responses have never been studied in relation to SSD in yerba‐mate. It was hypothesized that leaf and plant photosynthesis are higher in female than in male individuals because females must supply photoassimilates to compensate for the additional reproductive investments of SSD in biomass. Here, we investigated how two contrasting light environments (monoculture—MO and agroforestry—AFS) and plant genders change leaf and plant photosynthesis, plant architecture, leaf and branch biomass production and C and N investments of two male and two female clones. To model the 3D yerba‐mate structure, virtual trees were constructed using measurements of plant morphology using VPlant modelling software. The light‐response curves of leaf CO2 assimilation were used to model instantaneous leaf and daily plant photosynthesis. Photosynthetic traits derived from light‐response curves did not differ between MO and AFS. Some architectural traits were segregated sexually only in MO, while some physiological ones only in AFS. Leaf photosynthesis was higher in females than in males in AFS over a large part of the diurnal cycle, but SSD was not expressed in carbon gains at plant or daily scales. Leaf C/N ratio was higher in MO than in AFS, indicating MO as an ecosystem with higher degree of environmental degradation. Female clones had leaves with lower C/N ratio than males in both systems, relating to higher leaf photosynthesis on an area basis in females. SSD expressed in leaf photosynthesis over a large part of the diurnal cycle in AFS was not observed in carbon gains at plant or daily scales, indicating that the integration of physiology and architecture equalized the gender specificities. The insensitivity of photosynthetic traits derived from light‐response curves indicated acclimation of yerba‐mate leaves to a wide range of incoming light.

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Software for interpolation of vegetative growth of yerba mate plants in 3D

Cited by 4 publications

References 19 publications

Time series in analysis of yerba-mate biennial growth modified by environment

Time series in analysis of yerba-mate biennial growth modified by environment

Secondary sexual dimorphism in biomass production of Ilex paraguariensis progenies associated with their provenances and morphotypes

Canopy architecture and diurnal CO₂ uptake in male and female clones of yerba‐mate cultivated in monoculture and agroforestry

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Software for interpolation of vegetative growth of yerba mate plants in 3D

Cited by 4 publications

References 19 publications

Time series in analysis of yerba-mate biennial growth modified by environment

Time series in analysis of yerba-mate biennial growth modified by environment

Secondary sexual dimorphism in biomass production of Ilex paraguariensis progenies associated with their provenances and morphotypes

Canopy architecture and diurnal CO2 uptake in male and female clones of yerba‐mate cultivated in monoculture and agroforestry

Contact Info

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Canopy architecture and diurnal CO₂ uptake in male and female clones of yerba‐mate cultivated in monoculture and agroforestry