Seasonal variation of soluble carbohydrates and starch in Echinolaena inflexa, a native grass species from the Brazilian savanna, and in the invasive grass Melinis minutiflora

Souza, Amanda de; Sandrin, Carla Zuliani; Calió, Maria Fernanda; Meirelles, Sérgio Tadeu; Pivello, Vânia Regina; Figueiredo-Ribeiro, R. C. L.

doi:10.1590/s1519-69842010000200023

Cited by 12 publications

(7 citation statements)

References 25 publications

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“…In the case of tropical species, starch content in shoots of E. inflexa was lower during rainy periods, when the vegetative growth was higher. In contrast, during winter (driest season), the aerial biomass was reduced but the relative starch content increased (Souza et al ., ). This tendency was also observed for Paspalum notatum , another species growing in tropical and subtropical climate (Ribeiro et al ., ).…”

Section: Discussionmentioning

confidence: 97%

Diversity of non‐structural carbohydrates in grasses (Poaceae) from Brazil

Moraes

Chatterton

Harrison

et al. 2012

Grass and Forage Science

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Non‐structural carbohydrates (NSC) are the primary energy available for growth and dry‐mass production in forage grasses. They are also associated with tolerance to environmental stresses, including drought. Soluble carbohydrates, especially fructans of temperate forage grasses, have been extensively studied; however, little is known about NSC of tropical grasses. These plants are abundant in the Cerrado, a savanna‐like vegetation with a definite seasonality in rainfall distribution. Such an environment presents an ideal condition for the occurrence of fructans. However, the present analysis of carbohydrates in aerial parts of twenty‐four tropical grass species, mainly from the Panicoideae subfamily in the Cerrado, shows a distinctively different NSC profile when compared with temperate grasses. Free glucose and starch are common NSC found in most plant organs. However, free fructose and sucrose‐based oligosaccharides were only found in very low amounts. Sucrose was detected in higher amounts only in stems. A linear series of malto‐oligosaccharides was found in leaf blades, sheaths and stems of most of the Cerrado grasses, except for those from the Andropogoneae tribe. These results indicate a diversity of regulatory pathways of NSC metabolism in tropical forage grasses from the Cerrado.

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Section: Discussionmentioning

confidence: 97%

Diversity of non‐structural carbohydrates in grasses (Poaceae) from Brazil

Moraes

Chatterton

Harrison

et al. 2012

Grass and Forage Science

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“…Contrary to our expectations we did not find any differences in the soluble sugar content in the grasses of the three sites. Sucrose is the predominant nonstructural carbohydrate in most tropical C 4 grasses (Busso et al, 1990;Souza et al, 2010;White, 1973) and reportedly aids fast aboveground growth during early wet season in dry savannas or after moderate defoliation (Danckwerts and Gordon, 1990;Souza et al, 2010). Soluble sugars are more labile than starch and can be easily broken down to simpler sugars compared to starch which can be used by plants.…”

Section: Effect Of Study Site (Rainfall)mentioning

confidence: 99%

Competition with trees does not influence root characteristics of perennial grasses in semi-arid and arid savannas in South Africa

Priyadarshini

Bie

Heitkönig

et al. 2016

Journal of Arid Environments

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“…Although grass species flowered during the whole rainy season, flowering was concentrated at the middle of this period (mean date on February 7, Table 1). An explanation for this pattern is that that some species might need a buildup period to accumulates carbohydrates (Souza et al 2010) for completely vegetative growth and then flowering (Monasterio and Sarmiento 1976;Sarmiento 1992). For instance, the amount of starch in shoots of a Cerrado perennial grass Echinolaena inflexa is lower in the rainy season, when vegetative growth is higher, compared to the dry season, when vegetative growth is lower (Souza et al 2010).…”

Section: Seasonality Of Reproduction and Habitat Filteringmentioning

confidence: 99%

“…Furthermore, in the dry season, the grasses go through a semi-rest phase without vegetative growth (Monasterio and Sarmiento 1976). Thus, in the rainy season they might need a build-up period to store carbohydrates and to vegetative growth (Munhoz and Felfili 2005;Souza et al 2010) before flowering.…”

Section: Introductionmentioning

confidence: 99%

Habitat filtering and interspecific competition influence phenological diversity in an assemblage of Neotropical savanna grasses

2014

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Phenology in plants is closely related to the environmental features of their habitats, which can act as habitat filtering, clustering species with particular adaptations. On the other hand, aggregation of species can lead to competition between them, segregating their niches. We investigated if habitat filtering and interspecific competition influence phenological diversity in an assemblage of grass species in savanna grasslands of central Brazil. We conducted phenological observations, in 15-day intervals, of ten species of savanna grasses. We used circular statistics to ascertain the seasonality of the phenology and null models to estimate the phenological overlap between species. The reproductive period of grasses was seasonal and concentrated in the rainy season, corroborating the habitat filtering hypothesis; however, within the rainy season, the phenological niche overlap between species was less than expected at random. Flowering was more segregated than fruiting and seed dispersal. Although grasses have similar architectural feature and share similar above and underground niche, these results suggest that grasses are under competition pressure and this can result in phenological segregation, allowing coexistence between them.

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Seasonal variation of soluble carbohydrates and starch in Echinolaena inflexa, a native grass species from the Brazilian savanna, and in the invasive grass Melinis minutiflora

Cited by 12 publications

References 25 publications

Diversity of non‐structural carbohydrates in grasses (Poaceae) from Brazil

Diversity of non‐structural carbohydrates in grasses (Poaceae) from Brazil

Competition with trees does not influence root characteristics of perennial grasses in semi-arid and arid savannas in South Africa

Habitat filtering and interspecific competition influence phenological diversity in an assemblage of Neotropical savanna grasses

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