The influence of stand composition and season on canopy structure and understory light environment in different subtropical montane Pinus massoniana forests.

Canopy structure and understory light have important effects on forest productivity and the growth and distribution of the understory. However, the effects of stand composition and season on canopy structure and understory light environment (ULE) in the subtropical mountain Pinus massoniana forest system are poorly understood. In this study, the natural secondary P. massoniana-Castanopsis eyrei mixed forest (MF) and P. massoniana plantation forest (PF) were investigated. The study utilized Gap Light Analyzer 2.0 software to process photographs, extracting two key canopy parameters, canopy openness (CO) and leaf area index (LAI). Additionally, data on the transmitted direct (Tdir), diffuse (Tdif), and total (Ttot) radiation in the light environment were obtained. Seasonal variations in canopy structure, the ULE, and spatial heterogeneity were analyzed in the two P. massoniana forest stands. The results showed highly significant (P < 0.01) differences in canopy structure and ULE indices among different P. massoniana forest types and seasons. CO and ULE indices (Tdir, Tdif, and Ttot) were significantly lower in the MF than in the PF, while LAI was notably higher in the MF than in the PF. CO was lower in summer than in winter, and both LAI and ULE indices were markedly higher in summer than in winter. In addition, canopy structure and ULE indices varied significantly among different types of P. massoniana stands. The LAI heterogeneity was lower in the MF than in the PF, and Tdir heterogeneity was higher in summer than in winter. Meanwhile, canopy structure and ULE indices were predominantly influenced by structural factors, with spatial correlations at the 10 m scale. Our results revealed that forest type and season were important factors affecting canopy structure, ULE characteristics, and heterogeneity of P. massoniana forests in subtropical mountains.

Relationship among vegetation structure and mixed-species flocks composition along the latitudinal gradient of the subtropical montane forest of the Yungas, Argentina.

The structural and physiognomic characteristics of forests and mountain forest are fundamental aspects that influence the richness, abundance and composition in the bird community. The objective of the present work was to analyse how the vegetation structure could influence the species composition of mixed-species flocks (MSF), along the latitudinal gradient of the subtropical montane forest of the Yungas of Argentina. Eight sites were studied along the 700 km of distribution of the Argentine Yungas. Richness and abundance of MSF were determined. In addition, different variables of composition and structure of the vegetation were analysed. Multivariate analysis indicated that vertical strata coverage and litter depth were the main variables associated with changes in the species composition of MSF along the gradient. Variation in MSF composition within the Yungas was associated with the physiognomy of the subtropical montane forest, which could indicate that it is strongly linked to the condition of the local vegetation. Substantial changes in vegetation could drastically change the composition of the resident flocks. This article is part of the theme issue 'Mixed-species groups and aggregations: shaping ecological and behavioural patterns and processes'.

Effects of straw and biochar amendment on hydrological fluxes of dissolved organic carbon in a subtropical montane agricultural landscape.

Straw and biochar amendments have been shown to increase soil organic carbon (SOC) stocks in arable land; however, their effects on hydrological fluxes of dissolved organic carbon (DOC), which may offset the benefits of C sequestration amounts remain uncertain. Therefore, we conducted a three-year field study that included four treatments (CK, control with no fertilizer; NPK, synthetic N fertilizer; RSDNPK, synthetic N fertilizer plus crop residues; BCNPK, synthetic N fertilizer plus biochar of crop straw) to investigate the effects of straw and biochar amendment on DOC losses through hydrological pathways of overland flow and interflow from a wheat-maize rotation system in the subtropical montane agricultural landscape. We detected substantial intra- and inter-annual variations in runoff discharge, DOC concentration, and DOC fluxes for both overland flow and interflow pathways, which were primarily attributed to variations in rainfall amount and intensity. On average, the DOC concentrations for interflow (2.98 mg C L-1) were comparable with those for overland flow (2.71 mg C L-1) throughout the three-year experiment. However, average annual DOC fluxes for interflow were approximately 2.60 times greater than those for overland flow, which probably related to higher runoff discharges of interflow than overland flow. Compared to the control, on average, the N fertilization treatments significantly decreased the annual DOC fluxes of overland flow and significantly increased annual DOC fluxes of interflow. Relative to the application of synthetic N fertilizer only, on average, crop straw amendment practice significantly increased annual DOC fluxes of interflow by 28.7%, while decreasing annual DOC fluxes of overland flow by 12.0%; in contrast, biochar amendment practice decreased annual DOC fluxes of interflow by 25.3% while increasing annual DOC fluxes of overland flow by 44.6%. Overall, considering both overland flow and interflow, crop straw amendment significantly increased hydrological DOC fluxes, whereas biochar had no significant effects on hydrological DOC fluxes throughout the three-year experiment. We conclude that crop straw incorporation strategies that aim to increase SOC stocks may enhance hydrological losses of DOC, thereby in turn offsetting its benefits in the subtropical montane agricultural landscapes.

Florística vascular da Floresta Ombrófila Densa Altomontana de quatro serras no Paraná / Floristic composition of four tropical upper montane rain forests in Southern Brazil

A Floresta Ombrófila Densa Altomontana é uma formação responsável por importantes funções ambientais, entre elas a proteção e manutenção dos fluxos hídricos de cabeceiras de bacias hidrográficas, o estoque de carbono na sua biomassa e na do solo, além da sua biodiversidade e seu elevado endemismo. Apesar de ainda existirem remanescentes primários significativos dessas florestas, apenas alguns estudos descreveram sua estrutura arbórea. O presente trabalho tem o objetivo de listar e comparar a florística vascular de quatro serras representativas da Floresta Ombrófila Densa Altomontana no Paraná e de comparar a florística arbórea das florestas do presente estudo com a de outras florestas semelhantes nas regiões sul e sudeste do Brasil. Foram detectadas 346 espécies vegetais vasculares, pertencentes a 176 gêneros e a 87 famílias, sendo 72 angiospermas (288 espécies), 14 pteridófitas (57 espécies) e 1 gimnosperma. A família com maior riqueza específica foi Myrtaceae, com 34 espécies (10 por cento do total), seguida por Asteraceae (30; 9 por cento), Orchidaceae (29; 8 por cento), Rubiaceae (17; 5 por cento), Melastomataceae (16; 5 por cento), Poaceae (12; 3 por cento) e Bromeliaceae (11; 3 por cento). A composição florística arbórea das florestas altomontanas da Serra do Mar paranaense apresentou a menor similaridade entre as três grandes serras comparadas, com índices um pouco maiores com as florestas altomontanas da região de Aparados da Serra Geral (SC) e menores com a Serra da Mantiqueira, sudeste do Brasil (SP, RJ e MG). Além de diferenças geológicas, geomorfológicas, pedológicas e fitofisionômicas, as diferenças florísticas encontradas nas florestas altomontanas da Serra do Mar do Paraná em relação às demais serras comparadas pode também ser explicada pela melhor conservação dos trechos amostrados e pela baixa influência de elementos de outros tipos vegetacionais próximos (Floresta Ombrófila Mista, Floresta Ombrófila Densa Montana e vegetação ...

The Cloud Forests have very important environmental functions, among them, the maintenance and protection of the origin of the watersheds and the carbon stocks in its biomass and into the soil, besides its biodiversity and endemism. Despite still exist considerable remnants of primary cloud forests there are few studies that listed species that occur in these ecosystems. The aim of this study was to characterize the floristic composition of four areas of the Upper Montane Rain Forest of the "Serra do Mar" in the state of Paraná and to compare it with other cloud forests in southern and southeastern Brazil. A total of 346 vascular species were detected. They comprised 87 families including 72 angiosperms (288 species), 14 pteridophytes (57 species) and one gymnosperm. The species richest families were Myrtaceae (34 species; 10 percent of total), Asteraceae (30; 9 percent), Orchidaceae (29; 8 percent), Rubiaceae (17; 5 percent), Melastomataceae (16; 5 percent), Poaceae (12; 3 percent) and Bromeliaceae (11; 3 percent). The Serra do Ibitiraquire presented the largest area of cloud forests and the highest species richness (231 species). Of the 346 species found in typical cloud forests, 231 species were classified as typical, 41 as transitionals from high altitude grasslands and 68 as transitionals from lower montane forests. Similarities between the studied areas and other Brazilian cloud forests were low (cluster analyses and Sõrensen indexes). Besides the geological, geomorphological, pedological and forest structural differences, the conservation status, the lower influence of "Mixed Ombrophyllous forests" (Araucaria Moist forests) species, pioneer and lower montane species, justify this lower similarity.