In this work, we analyse morpho-physiological modifications presented during the allomorphic growth of the aroid vine Rhodospatha oblongata Poepp throughout its ascent into the forest canopy. We test the hypothesis that morphological modifications in the root, shoot and leaf are followed by a gradual improvement of the xylem vascular system in order to increase water acquisition and transport as body size increases. The characterisation of these structural modifications was based on 30-35 specimens divided into six size classes. The dimensions of shoots, leaves and roots were quantified and qualified. The transition from the terrestrial to the epiphytic phase was followed by a simultaneous increase of leaf number and lamina area, together with increased length and diameter of the petiole. Furthermore, as the plant grows, the shoot internodes become shorter and thicker. However, occurrence of aerial roots is the most important characteristic in the ascending phase. In taller individuals, the increase in number of roots with wider xylem vessels guarantees an increased theoretical xylem hydraulic conductance for this growth phase. Along an acropetal direction of the same shoot, the diameter of xylem vessels increased, while the number of vessels per stele area decreased, in contrast with such allometric models as that of West, Brown and Enquist, showing that xylem vessel number and diameter taper in a reverse manner along the same direction. Such structural changes of R. oblongata allow improved foraging for light and water, facilitating the survival of bigger-sized plants of this vine in the canopy.
Are belowground clonal traits good predictors of ecosystem functioning in temperate grasslands?
In herbaceous communities which host many perennial species, belowground clonal organs and traits remain largely overlooked in ecosystem functioning studies. However, the belowground compartment is expected to play a key role as the greatest proportion of biomass is allocated belowground. Our main goal was to test whether including underexplored clonal traits (in tandem with widely used aboveground traits) improves the ability to predict biomass production and soil carbon in temperate grasslands. We examined the relationships between five plant functional traits (canopy height, specific leaf area [SLA], lateral spread, multiplication rate, persistence of rhizome) and biomass allocation (aboveground, roots, rhizomes) and soil organic carbon (SOC). We studied 52 grassland plots clustered in two Central European regions differing by management intensity. We assessed biomass allocated aboveground and belowground (into roots and rhizomes separately). SOC was measured from averaging five soil cores at each plot. Trait community means were calculated for each trait from species compositions using databases. The most important traits in predicting biomass allocation were canopy height and persistence of rhizome. Results, however, differed for the two regions implying context dependency of the relationships. Persistence of rhizome and canopy height emerged as traits largely affecting ecosystem functioning at the less intensively managed grasslands—likely because of their links to biomass production and plant economics spectrum. At the more intensively managed grasslands, canopy height and SLA were negatively correlated with root biomass, with persistence of rhizome playing a (lesser) role. We found no significant predictors for SOC. Synthesis. This study is the first attempt to integrate belowground clonal and aboveground traits to predict biomass allocation and soil carbon. Findings indicate that the ability of plant functional traits in predicting ecosystem functioning is highly context dependent, varying greatly even within the same community type. Only SLA and, to a lesser extent, persistence of rhizome consistently predicted root biomass in the two regions. We call for a broader implementation of the whole‐plant multifunctional approach applied here, ideally extending to other open ecosystems. A free Plain Language Summary can be found within the Supporting Information of this article.
Background and Aims Root sprouting (RS), i.e. the ability to form adventitious buds on roots, is an important form of clonal growth in a number of species, and serves both as a survival strategy and a means of spatial expansion, particularly in plants growing in severely and recurrently disturbed habitats. Occurrence and/or success of plants in severely and recurrently disturbed habitats are determined by two components, viz.; the ability to produce adventitious buds on roots and the vigour of their production. As mechanisms behind different magnitudes of RS remain unclear, our study investigates: (i) whether the presence or absence of specific tissues in roots can promote or limit RS, and (ii) whether there is some relationship between RS ability, RS vigour and species niche. Methods We studied RS ability together with RS vigour in 182 Central European herbaceous species under controlled experimental conditions. We used phylogenetic logistic regressions to model the presence of RS, RS vigour, the relationship between RS and anatomical traits, and the relationship between RS and parameters of species niche. Key Results One quarter of herbs examined were able to produce adventitious buds on roots. They were characterized by their preference for open dry habitats, the presence of secondary root thickening and the occurrence of sclerified cortical cells in roots. Root sprouting vigour was not associated with any specific anatomical pattern but was correlated with the environmental niches of different species, indicating that preferred disturbed and dry habitats might represent a selection pressure for more vigorous root sprouters than undisturbed and wet habitats. Conclusions Our study shows that sprouting from roots is quite common in temperate dicotyledonous herbs. Two components of RS, ability and vigour, should be considered separately in future studies. We would also like to focus more attention on RS in herbs from other regions as well as on external forces and internal mechanisms regulating evolution and the functions of RS in both disturbed and undisturbed habitats.
Anatomia comparada da folha e espata de espécies de Anthurium (Araceae) ocorrentes na Mata Atlântica
-(Comparative anatomy of leaf and spathe of Anthurium (Araceae) species from the Atlantic Rain Forest). Leaf and spathe anatomy of nine species of the genus Anthurium (sections Urospadix and Leptanthurium) were analyzed. Plant material was collected from different locations in Brazil and cultivated under identical conditions in the Instituto de Pesquisas Jardim Botânico do Rio de Janeiro. Our objective was to evaluate the diagnostic potential of leaf and spathe anatomy for taxonomic purposes. Leaves presented smooth and striated cuticle, epidermal cells randomly disposed, raised and non-raised stomata, epidermal glands, periclinal divisions of epidermal cells, raphides, druses, carotene and diosmin crystals, palisade parenchyma on the adaxial surface of the midrib and sclerenchymatic fibre sheath in the bundle. The spathes also presented smooth and striated cuticle, epidermal cells in parallel rows, raised and non-raised stomata, epidermal glands, raphides, druses and flavonoidic crystals, uniform mesophyll, and presence of sclerenchyma as fibre caps associated to the vascular bundles. The Anthurium species have differences between leaves and spathes based on anatomical characters, but clustering analysis did not separate the species from different sections. Results indicate that spathe can give a better resolution than leaves for segregation of species groups in Anthurium.Key words -Leptanthurium, taxonomy, Urospadix RESUMO -(Anatomia comparada da folha e espata de espécies de Anthurium (Araceae) ocorrentes na Mata Atlântica). São apresentados dados relativos à anatomia da lâmina foliar e espata de nove espécies do gênero Anthurium (seções Urospadix e Leptanthurium). Os indivíduos foram coletados em diversas partes do Brasil e aclimatados no Instituto de Pesquisas Jardim Botânico do Rio de Janeiro. O objetivo deste estudo foi comparar as características anatômicas da lâmina foliar e da espata, detectando caracteres que sejam potenciais para subsidiar e contribuir aos estudos taxonômicos do gênero Anthurium. Observa-se nas folhas a presença tanto de cutícula lisa quanto estriada, células epidérmicas dispostas ao acaso, estômatos no mesmo nível das demais células da epiderme ou elevados, glândulas epidérmicas e divisões periclinais em células epidérmicas, além de ráfides, drusas, cristais de caroteno e diosmina, parênquima paliçádico na face adaxial da nervura central e bainha de fibras esclerenquimáticas nos feixes. Quanto à espata observa-se cutícula lisa e estriada, células epidérmicas ordenadas de forma paralela, estômatos no mesmo nível das demais células da epiderme ou elevados, glândulas epidérmicas, ráfides, drusas e cristais de natureza flavonoídica; o mesofilo é uniforme, apresentando apenas calotas de fibras associadas aos feixes vasculares, quando não ausentes. As espécies de Anthurium avaliadas mostraram-se distintas quanto à anatomia de folha e espata, mas as análises de agrupamento não permitiram separar espécies de acordo com a respectiva seção. Os resultados indicam ser a espata a estrut...
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