Constructed pine log piles facilitate plant establishment in mining drylands

Ecological facilitation, though accepted as a main mechanism of plant community assembly, is just starting to be utilized in restoration programmes. Constructing nurse objects that mimic the effect of natural nurse species can be an option to trigger plant nucleation processes in disturbed stressful ecosystems. We hypothesized that arranged log piles might imitate plant facilitation by alleviating abiotic stress and expanding the regeneration niche of beneficiary species, eventually promoting plant establishment, fitness and diversity. With this aim, within a pilot restoration programme in abandoned mining structures in SE Spain where climatic and edaphic stresses concur, we constructed 133 pine log piles from natural wastes generated by local silvicultural activities. We monitored 51 of them plus their adjacent open areas for 15 months, measuring soil temperature, radiation and humidity. We recorded natural seedling establishment, plant nutritional status and heavy metal accumulation. We further performed a seed sowing experiment to investigate how log piles affect plant taxonomic and functional diversity based on 11 establishment and phytostabilization traits. Pine log piles significantly softened microclimatic conditions and accelerated plant establishment in unfertile and metal-polluted mining substrates, simultaneously capturing water, providing shade and pine seeds. Plant communities that naturally established beneath the piles were 15 times denser and five times taxonomically more diverse than those in open areas, despite being skewed towards pine recruitment. Experimental communities sown under log piles were also 1.4 times functionally more diverse, as theory predicts for relaxed abiotic conditions. Log piles improved seedling nutritional status, in terms of P and K content, at the cost of increased metal accumulation. At the landscape scale, nurse objects triggered plant establishment promoting taxonomic and functional diversity in extremely stressful environments. This study exemplifies how soft restoration tools can be based on mechanisms that are widely accepted in the ecological theory

Temperaturas cardeais e efeito da luz na germinação de sementes de mutamba Cardinal temperatures and effect of light on Guazuma ulmifolia Lam. seed germination

Guazuma ulmifolia Lam., conhecida como mutamba, é uma espécie arbórea característica dos estádios iniciais da sucessão secundária, com ampla ocorrência natural no Brasil. Possui grande potencial para recuperação ambiental de áreas degradadas. Neste trabalho, conduziram-se dois experimentos, nos quais as sementes foram extraídas e escarificadas antes da instalação dos testes de germinação. O primeiro experimento foi desenvolvido com sementes colhidas em outubro de 1995 e teve por objetivo definir as temperaturas cardeais para a germinação das sementes. Foram testadas as temperaturas de 10, 15, 20, 25, 30, 35, 40 e 45 ºC, sob fotoperíodo de oito horas. Os resultados mostraram que a temperatura mínima é próxima de 10 ºC, a máxima se situa entre 35 e 40 ºC e as temperaturas de 25 e 30 ºC encontram-se dentro da faixa ótima. No segundo experimento, visou-se avaliar o requerimento fotoblástico de sementes recém-colhidas (colheita de outubro de 1996) e armazenadas em câmara seca por um ano (colheita de outubro de 1995). Os testes de germinação foram conduzidos a 30 ºC e as sementes recém-colhidas tiveram a germinação promovida pelas luzes branca e vermelha, mas inibida pela luz vermelha-extrema e ausência de luz. As sementes armazenadas, entretanto, revelaram-se insensíveis à luz.<br>Guazuma ulmifolia Lam. (Sterculiaceae) is a typical tree species of the initial stages of secondary succession in Brazil, with potential for use in restoring degraded areas. Two experiments were carried out in this work, in which seeds were extracted and scarified before conducting the germination tests. The first experiment was conducted with seeds harvested in October 1995 and aimed to determine the cardinal temperatures for seed germination. Constant temperatures of 10, 15, 20, 25, 30, 35, 40 and 45 ºC were tested under an eight hour photoperiod. The results showed that the minimum temperature is around 10 ºC, the maximum between 35 and 40 ºC, while 25 and 30 ºC temperatures are within the optimum range. The second experiment aimed to evaluate the photoblastic requirement of both freshly harvested (October 1996) and one year dry stored (harvested in October 1995) seeds. Germination tests were conducted at 30 ºC. The results showed that germination of freshly harvested seeds was promoted either by white or by red light, but inhibited by infra-red light or by darkness. Stored seeds, however, were insensitive to light