Influência da incorporação de coberturas mortas e da mobilização no comportamento térmico da camada de ar acima de um Solo mediterrâneo pardo

A aplicação de coberturas mortas (mulches) à superfície do solo ou a simples mobilização deste influenciam directamente o respectivo balanço energético, modificando deste modo o ambiente térmico da camada superficial do solo e o da camada de ar imediatamente acima deste. O objectivo deste trabalho consiste em comparar o efeito de diferentes tipos de tratamentos à superfície do solo – mobilização, manutenção do restolho e aplicação de duas quantidades diferentes de palha no comportamento térmico da camada de ar acima de um solo Mediterrâneo pardo (Haplic Luvisol) semeado com trigo. As experiências decorreram entre janeiro e maio de 2007 num campo semeado com trigo, na herdade da Revilheira, Reguengos de Monsaraz. A temperatura foi medida com termopares cobre-contantan colocados à superfície do solo e no topo da cultura. A humidade do solo e o crescimento da cultura foram também monitorizados. Na fase mais precoce do ciclo vegetativo do trigo, as temperaturas médias diárias do ar no topo da cultura foram significativamente maiores em solo mobilizado que em solo coberto por palha ou por restolho. Com o desenvolvimento da cultura, o tipo de cobertura tem uma influência crescente na temperatura superficial do solo mas decrescente na temperatura no topo da cultura. Por outro lado, as temperaturas mínimas diárias do ar foram significativamente afectadas pelo tratamento superficial do solo, tendo sido menores nas parcelas onde a palha foi aplicada ou o restolho mantido. A manutenção do restolho é a prática que menos parece proteger a cultura das geadas

Possible effects of climate change on the early development of pea, broad bean, maize and sunflower in Mediterranean areas.

In Mediterranean-type climates crop yield depends strongly on the early development of individual plants. Extreme variations of soil temperature close to the surface of bare soils and fast changes of soil water content due to irregular rainfall and high evaporative demand reduce the success of germination, emergence and early leaf production, reducing crop productivity. According to IPCC Fourth Assesment report, climate change in Southern Europe “is projected to worsen hygrometric and thermal conditions (high temperature and drought) and to reduce water availability” and, consequently, to decrease general crop productivity. The aim of this study was to evaluate the thermal conditions in the top soil layer under different climate change scenarios, and their effects on the early development of some representative crops of Mediterranean agriculture (pea, broad bean, maize and sunflower). For this purpose, soil temperatures near the surface of a Luvisol and a Vertisol during the usual sowing season of winter (October) and summer crops (April) were compared to those recorded in the air above ground, to forecast future values. The impact of simulations on the speed, size and dispersion of germination, emergence and early leaf production was estimated using values of bioclimatic parameters of the crops (cardinal temperatures and thermal times for different phases of establishment) found in the literature. In both seasons, monthly mean temperatures at soil top layer were significantly greater (*P<0.05) than those found in the air above ground. However, the relationships between air and top soil temperatures were different in both soils and in both seasons. Summer crops seem to be less affected by an increase in temperature than winter crops. Otherwise, the former seem to be more affected by a decrease in soil water availability than the later. In addition, final emergence, speed of emergence and leaf production of the different species will be more affected by global warming than the dispersion around the most likely thermal times. The magnitude of these effects depends also on the magnitude of warming

Litter layer influence on the thermal regime of a sandy soil under a pine forest in mediterranean Portugal

Decomposition of needle litter is a relevant process in applied ecology, namely in the nutrient dynamics of forested ecosystems. Soil temperature strongly influences soil microbian activity. Temperature profiles of a sandy soil (Haplic Podzol) under a pine forest were measured at several depths down to 16 cm, with and without litter layer. Daily cycles were analysed by means of Fourier series. Daily cycles were studied based on data from four days defined according to soil water content. The daily periodic variations of soil temperature follow closely the time-course of solar irradiance. Daily course of soil temperature is generally well described by the two first Fourier harmonics. The litter layer acts as a thermal insulator, reducing soil temperature gradients and amplitudes and increasing damping depth, particularly in dry soil

Leaf area expansion and dry matter accumulation during establishment of broad bean and sorghum at different temperatures and soil water contents in two types of soil in mediterranean Portugal

Crop establishment is a major factor determining crop productivity in the field and is strongly controlled by soil temperature and soil moisture. Fast leaf expansion and dry matter accumulation during crop establishment are required for an adequate establishment. Leaf area expansion and accumulation of dry matter during the establishment of broad bean (Vicia faba L.) and sorghum (Sorghum vulgare L.) were studied at different soil temperatures and soil moisture contents in a Vertisol (Lisboa) and a Luvisol (Évora) from November 1993 to November 1996. Soil temperature was measured at 2 and 4 cm depth with thermocouples, air temperature was measured with a ventilated psychrometer and soil moisture was measured using the gravimetric method. Leaf area was estimated non-destructively. Above ground seedling dry matter was weighed after oven drying at 65ºC. Data analysis was based on the thermal time concept. For each crop no significant differences were found on leaf area at establishment in both soils under favourable water conditions, but significant differences were found on seedling dry matter. In moist soils, leaf area of both species increased linearly with accumulated temperature and dry matter increased exponentially with accumulated temperature. Low soil water during establishment reduced leaf expansion and dry matter accumulation of both crops, mainly if it occurred before seedling emergence. In mediterranean type climates meteorological extremes of low rainfall associated to high temperatures are expected to be more frequent on the wake of global climate change, reducing crop establishment and productivity

A Pirâmide das RP: Os media sociais e o papel das Relações

This paper explores the relationship between social media as tools used by public relations professionals and as part of the daily lives of organizations’ stakeholders, identifying emergent practices in public relations and confronting new perspectives, both professional and academic, on public relations functions and on its role within organizational communication. Departing from the agreement shared by academics and professionals on a profound shift in public relations as a consequence of the increasingly widespread, intense and frequent use of social media, this paper intends to clarify the nature and terms of that shift. Two perspectives are confronted: one of them is focused on emergent professional practices and regards social media as tools at the disposal of the PR professional; the other is broader in scope and views social media as a contextual factor that influences both the stakeholders’ behavior patterns and PR practices, thus redefining the role of public relations within organizational communication. The paper presents results from an exploratory study whose goal was to identify a conceptual framework for understanding the impact of social media on public relations.A relevant case study was identified, presenting the solution found by TAP, the Portuguese airline company, to deal with communication crisis involving the social media and to successfully manage social media use as a complementary communication channel. TAP’s social media presence is managed through an articulation of public relations, marketing and customer support where public relations assume a pivotal role. Drawing on this case study, we propose the PR pyramid as a theoretical model that redefines the role of public relations as the orchestrator of the consistent, coherent and integrated communication that is demanded by the contemporary digital context

Mulching and soil tillage influence on the thermal behaviour of a Luvisol surface layer

Important energy exchanges at soil surface regulate the thermal environment within top soil layer and the boundary layer above it. By this reason, the application of mulches or the modelling of micro relief by soil tillage are common practises to modify the thermal regime of a soil. The aim of this study is to compare the effect on thermal behaviour of a Luvisol resulting of soil tillage and the application of stubble mulch and, different amounts of straw mulch. For this purpose, experiments were performed from January to May 2007 in a field sowed with winter wheat. Temperatures were measured with copper-constantan (Type T) thermocouples placed over straw and over stubble, at soil surface and at 2, 4 and 8 cm depth. Temperatures above canopy were also recorded. Daily mean temperatures and thermal amplitudes in the top soil layer covered by straw mulch were smaller than those verified either by stubble mulch or with soil tillage. Daily minimum temperatures in mobilized plots or covered by stubble mulch were smaller than those verified in plots covered by straw mulch, therefore being the former treatments more susceptible to frost than the later ones. Thermal differences between the four plots decreased significantly with wheat growth. Implications of these techniques of soil temperature control for crop growth are also discussed

Mulching and soil tillage influence on the thermal behaviour of a Luvisol surfacel layer

Important energy exchanges at soil surface regulate the thermal environment within top soil layer and the boundary layer above it. By this reason, the application of mulches or the modelling of micro relief by soil tillage are common practises to modify the thermal regime of a soil. The aim of this study is to compare the effect on thermal behaviour of a Luvisol resulting of soil tillage and the application of stubble mulch and, different amounts of straw mulch. For this purpose, experiments were performed from January to May 2007 in a field sowed with winter wheat. Temperatures were measured with copper-constantan (Type T) thermocouples placed over straw and over stubble, at soil surface and at 2, 4 and 8 cm depth. Temperatures above canopy were also recorded. Daily mean temperatures and temperature amplitudes in the top soil layer covered by straw mulch were smaller than those verified either by stubble mulch or with soil tillage. Daily minimum temperatures in mobilized plots or covered by stubble mulch were smaller than those verified in plots covered by straw mulch, therefore being the former treatments more susceptible to frost than the later ones. Thermal differences between the four plots decreased significantly with wheat growth. Implications of these techniques of soil temperature control for crop growth are also discussed