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One of the most important ecological processes is the formation of interspecific relationships in relation to spatial patterns among alpine cushion plants in extreme environmental habitats. However, such relationships remain poorly understood. Here, we examined the spatial patterns of alpine cushion plants along an altitudinal gradient of environmental severity and the interspecific relationship between two cushion species (Thylacospermum caespitosum and Androsace tangulashanensis) on the eastern Kunlun Mountain of China. Our results showed that the two species were highly aggregated within a distance of 2.5-5 m at the mid (S2) altitude, whereas they were randomly distributed at the low (S1) and high (S3) altitudes. A positive spatial interaction between the two species was observed over shorter distances at the mid (S2) altitude, and the spatial patterns were related to the size of individuals of the two species. Moreover, the impact of A. tangulashanensis on T. caespitosum (RIIT. caespitosum) was negative in all the study plots, and a positive impact of T. caespitosum on A. tangulashanensis (RIIA. tangulashanensis) was only observed at the mid (S2) altitude. Together, these results demonstrated that the spatial patterns of these two cushions varied with environmental severity, since the outcome of the interactions were different, to some extent, at the three altitudes. Plant size is the main factor affecting the spatial correlation and interspecific relationship between two cushions. Therefore, its potential influence should be considered when discussing interspecific relationships among cushions and their community construction at small scales in alpine ecosystems.

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Abstract: The aquatic plants and biological processes have different interactions and their knowledge may contribute to the understanding of environmental dynamics in wetlands. The aim of this study was to report the type of interactions that different biological forms of macrophytes stand in the eutrophic tropical reservoir of Penha reservoir, Northeastern Brazil. Data collection was captured every two months from October 2009 to October 2010, considering the hydrological cycle in one-year period. For this, twelve perpendicular transects (separated by 10 m) at the reservoir's water edge were defined; each transect had two plots of 625 cm² (25 x 25 cm, separated by one meter) from which samples were obtained. Plants were collected and transported in identified plastic bags for subsequent quantification of the dry weight biomass; additionally, pressed samples were made in the field for identification purposes. The relative interaction index (RII) was used to identify the existence of positive and/or negative interactions between the biomass of the biological forms of aquatic plants. Student's t-tests were used to analyze variations in the abiotic data and biomass over time, and to determine differences between the dry and rainy seasons. Pearson and Spearman correlation coefficients were calculated to determine correlations between the biological forms and the biomass of the macrophytes, as well as environmental variables and RII. In the dry season, the environment was mainly composed of floating macrophytes (1 013.98 g/m²), with mats of submerged macrophytes (98.18 g/m²) that demonstrated a range of positive (RII= 1.0) to negative (RII= -0.2) interactions. The biomass of emergent macrophytes increased throughout the dry season (4.87 to 106.91 g/m²) due to the nurse plant effect that served as a substratum (RII= 1.0). During the rainy season the biomass of submerged macrophytes was reduced by 97 % due to direct and indirect relationships (RII= -1.0) to other macrophytes. Rainfall and emergent plants contributed to a reduction in the biomass of floating macrophytes (19.16 g/m²). The emergence of a third group of plants (emergent) lead floating plants to occupy other areas and excluded submerged plants. Overall, the interactions among plants within ecosystems were not definite due to stand composition and seasonality. Rev. Biol. Trop. 65 (3): 1095-1104. Epub 2017 September 01.

Resumen: El conocimiento de las interacciones de las plantas acuáticas contribuye a la comprensión de la dinámica del ambiente (embalse Penha, Noreste Brasil). El objetivo del estudio fue reportar las posibles interacciones positivas y/o negativas que ocurren en los matorrales de macrófitos con distintos tipos de plantas, en un reservorio tropical eutrofizado. La recolección de los datos se hizo cada dos meses, desde Octubre 2009 hasta Octubre 2010, se consideró un ciclo hidrológico de un año. Fueron muestreados doce transectos perpendiculares a la orilla, separados 10 m entre ellos. En cada transecto se recolectaron dos cuadrículas de 625 cm² (25 x 25 cm) distantes 1 m uno del otro. Las plantas fueron retiradas y puestas en bolsas plásticas numeradas de acuerdo con el punto de recolección, para cuantificación del peso seco de la biomasa. En el campo se hizo el prensaje de las muestras para la identificación de las macrófitas. Se utilizó el índice relativo de interacciones (RII) para identificar la existencia de interacciones positivas y/o negativas entre las formas biológicas de las plantas acuáticas. Se uso el t Student para evaluar las variaciones de los datos abióticos y biomasa a lo largo del tiempo y determinar las diferencias entre las estaciones de lluvia y seca. Fueron calculados los coeficientes de correlación de Pearson y Spearman para determinar las correlaciones entre las formas biológicas y la biomasa de macrófitas, las variables ambientales y RII. En el período seco, el ambiente estaba compuesto principalmente por plantas flotantes (1 013.98 g/m²) y con la presencia de macrófitos sumergidos (98.18 g/m²), que demostraron interacciones variando de positivas (índice relativo de interacción - RII= 1.0) hasta negativas (RII= -0.2). La biomasa de macrófitos emersos aumentó a lo largo de la estación seca (4.87 to 106.91 g/m²) debido al efecto nodriza que sirve como substrato (RII= 1.0). En la estación lluviosa la biomasa de macrófitos sumergida se redujo 97 % debido a interacciones directas y indirectas (RII= -1.0) con otros macrófitos. La lluvia y los matorrales de plantas acuáticas contribuyen a la reducción en la biomasa de los macrófitos flotantes (19.16 g/m²). La aparición de un tercer grupo de plantas (emersas) llevan las flotantes a ocupar otros sitios y la exclusión de los macrófitos sumergidos. La interacción entre las plantas en el ecosistema evaluado no son rígidas debido a la composición de los matorrales y la estacionalidad.

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Hydrological conditions determine the distribution of plant species in wetlands, where conditions such as water depth and hydrological fluctuations are expected to affect the interspecific interactions among emergent wetland species. To test such effects, we conducted a greenhouse experiment with three treatment categories, interspecific interaction (mixed culture or monoculture), water depth (10 or 30 cm depth), and hydrological fluctuation (static or fluctuating water level), and two common emergent wetland plant species, Scirpus planiculumis Fr. (Cyperaceae) and Phragmites australis var. baiyangdiansis (Gramineae). An increase in the water depth significantly restrained the growth of both S. planiculumis and P. australis, while hydrological fluctuations did not obviously alter the growth of either species. In addition, both water depth and hydrological fluctuations significantly affected the interspecific interaction between these two wetland species. P. australis benefited from interspecific interaction under increasing water depth and hydrological fluctuations, and the RII values were clearly positive for plants grown at a water depth that fluctuated around 30 cm. The results may have some implications for understanding how S. planiculumis and P. australis, as well as wetland communities, respond to the natural variation or human modification of hydrological conditions.

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The diversity-productivity relationship (humped-back model (HBM)) and the stress-gradient (SGH) hypotheses may be connected when productivity is limited primarily by aridity. We analytically connect both hypotheses and assess the contribution of facilitation to woody plant richness along the aridity gradient of the Western Mediterranean floristic region. We monitored regeneration niches of woody plants, obtaining rarefied species richness and plant relative interaction indices in 54 forests and scrublands in a 1750-km geographical range across Spain, Morocco and the Canary Islands. We verified the monotonic increase in facilitation with aridity postulated by SGH and the humped-shape pattern of species richness expected from HBM, which became manifest after expanding the aridity gradient or crossing vegetation types. Along the gradient, interaction balance turned into facilitation earlier in forest than in scrublands. The effects of aridity and interaction balance on species diversity were additive rather than interdependent. Facilitation is an important driver of woody species richness at macroecological scales because it added up to diversity in most sites, with enhanced contribution with increased stress. The HBM was not shaped by species interactions. Results suggest that facilitation may act in Mediterranean vegetation buffering against critical transitions between states allowing woody plant communities to cope with the rise in aridity expected with global warming.

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