ABSTRACT
Enrichment plantings into secondary forest are an important option in restoring species diversity and ecosystem services. However, little attention has been given to environmental requirements for species performance. This study evaluated the effects of lightgaps and topographic position on the growth and survival of four native tree species (Pouteria caimito, Garcinia macrophylla, Dipteryx odorata and Cynometra bauhiniaefolia) planted into a 26-year old secondary forest originating from abandoned pastures in the central Amazon Basin. Artificial lightgaps and control plots under closed canopy were uniformly distributed on plateaus and bottomlands near water bodies. Seedlings were planted randomly into the plots and monitored for 28 months. Seedling survival rate was high (93%) and did not differ among species. Overall, lightgaps produced a 38% increase in seedling height relative to the controls. Although the four species naturally occur in mature forest, two of the four grew significantly more in lightgaps than in closed canopy secondary forest. Overall, bottomlands facilitated greater seedling growth in height (38%) relative to plateaus, but only one species exhibited a significant increase. This study shows the importance of the environmental variability generated with canopy openings along the topographic gradient, suggesting that both the selection of species and microsite conditions of planting sites have to be considered important criteria in the recovery of degraded areas. (AU)
Subject(s)
Crop Production , Pasture , Amazonian Ecosystem , Environmental Restoration and RemediationABSTRACT
A espécie Achillea millefolium L., conhecida como mil-folhas, é uma planta herbácea, rizomatosa e perene. Sua importância medicinal deve-se às suas atividades antibacterianas, antiinflamatórias, antitumorais, analgésicas e antioxidantes. O efeito da disponibilidade de luz e do nitrogênio sobre o crescimento e produção dessa espécie é pouco conhecido. O objetivo deste trabalho foi avaliar a resposta de A. millefolium L., cultivada sob diferentes níveis de sombreamento e doses de nitrogênio, quanto ao crescimento e à produção de pigmentos fotossintéticos. As plantas foram cultivadas sob três doses de nitrogênio (0, 75 e 150kg uréia ha-1) e submetidas a dois níveis de sombreamento 0 por cento (luz plena) e 75 por cento (sombrite 75 por cento). Adotou-se o delineamento experimental de blocos casualizados com quatro repetições em um fatorial 3x2 (doses de nitrogênio x níveis de sombreamento). O sombreamento influenciou a maioria dos caracteres avaliados, causando uma redução significativa no acúmulo de massa seca da parte aérea (caule + folha + flor), caule, folhas e flores e aumento nos teores de clorofila a, b, total e carotenóides. Os resultados sugerem que a espécie A. millefolium L. possui adaptação à baixa intensidade luminosa, devido às alterações nas características foliares, relacionadas aos teores de pigmentos fotossintéticos.
Achillea millefolium L., known as yarrow, is an herbaceous, rhizomatous and perennial plant. Its medicinal importance is attributed to antibacterial, anti-inflammatory, antitumoral, analgesical and antioxidant activities. The effect of light availability and nitrogen on growth and production of this species is little known. The objective of this study was to evaluate the growth and production of photosynthetic pigments in A. millefolium L. grown under different levels of shading and nitrogen levels. Plants were cultivated under three nitrogen levels (0, 75 and 150kg urea ha-1) and subjected to two levels of shading 0 percent (full light) and 75 percent (75 percent black). The experimental design was delineated in randomized blocks with four replicates in a factorial 3 x 2 (nitrogen levels x levels of shading). The shading influenced most parameters evaluated, causing a significant reduction in dry mass accumulation of shoot (stem + leave + flower), stem, leaves and flowers and increase in levels of chlorophyll a, b, total and carotenoids. Results suggest that Achillea millefolium L. has adaptated to low light intensity, due to changes in leaf traits related to photosynthetic pigments content.