Soil sampling design and sampling techniques for soil properties monitoring – common difficulties related to forest soils

Mathematical models and statistical analysis are key instruments in soil science scientific research as they can describe and/or predict the current state of a soil system. These tools allow us to explore the behavior of soil related processes and properties as well as to generate new hypotheses for future experimentation. A good model and analysis of soil properties variations, that permit us to extract suitable conclusions and estimating spatially correlated variables at unsampled locations, is clearly dependent on the amount and quality of data and of the robustness techniques and estimators. On the other hand, the quality of data is obviously dependent from a competent data collection procedure and from a capable laboratory analytical work. Following the standard soil sampling protocols available, soil samples should be collected according to key points such as a convenient spatial scale, landscape homogeneity (or non-homogeneity), land color, soil texture, land slope, land solar exposition. Obtaining good quality data from forest soils is predictably expensive as it is labor intensive and demands many manpower and equipment both in field work and in laboratory analysis. Also, the sampling collection scheme that should be used on a data collection procedure in forest field is not simple to design as the sampling strategies chosen are strongly dependent on soil taxonomy. In fact, a sampling grid will not be able to be followed if rocks at the predicted collecting depth are found, or no soil at all is found, or large trees bar the soil collection. Considering this, a proficient design of a soil data sampling campaign in forest field is not always a simple process and sometimes represents a truly huge challenge. In this work, we present some difficulties that have occurred during two experiments on forest soil that were conducted in order to study the spatial variation of some soil physical-chemical properties. Two different sampling protocols were considered for monitoring two types of forest soils located in NW Portugal: umbric regosol and lithosol. Two different equipments for sampling collection were also used: a manual auger and a shovel. Both scenarios were analyzed and the results achieved have allowed us to consider that monitoring forest soil in order to do some mathematical and statistical investigations needs a sampling procedure to data collection compatible to established protocols but a pre-defined grid assumption often fail when the variability of the soil property is not uniform in space. In this case, sampling grid should be conveniently adapted from one part of the landscape to another and this fact should be taken into consideration of a mathematical procedure.

Forest soil short term response to prescribed fire: an approach by Principal Components Analysis

In the current context of serious climate changes, where the increase of the frequency of some extreme events occurrence can enhance the rate of periods prone to high intensity forest fires, the National Forest Authority often implements, in several Portuguese forest areas, a regular set of measures in order to control the amount of fuel mass availability (PNDFCI, 2008). In the present work we’ll present a preliminary analysis concerning the assessment of the consequences given by the implementation of prescribed fire measures to control the amount of fuel mass in soil recovery, in particular in terms of its water retention capacity, its organic matter content, pH and content of iron. This work is included in a larger study (Meira-Castro, 2009(a); Meira-Castro, 2009(b)). According to the established praxis on the data collection, embodied in multidimensional matrices of n columns (variables in analysis) by p lines (sampled areas at different depths), and also considering the quantitative data nature present in this study, we’ve chosen a methodological approach that considers the multivariate statistical analysis, in particular, the Principal Component Analysis (PCA ) (Góis, 2004). The experiments were carried out in a soil cover over a natural site of Andaluzitic schist, in Gramelas, Caminha, NW Portugal, who was able to maintain itself intact from prescribed burnings from four years and was submit to prescribed fire in March 2008. The soils samples were collected from five different plots at six different time periods. The methodological option that was adopted have allowed us to identify the most relevant relational structures inside the n variables, the p samples and in two sets at the same time (Garcia-Pereira, 1990). Consequently, and in addition to the traditional outputs produced from the PCA, we have analyzed the influence of both sampling depths and geomorphological environments in the behavior of all variables involved.

Analysis of Forest Fires by means of Pseudo Phase Plane and Multidimensional Scaling Methods

Forest fires dynamics is often characterized by the absence of a characteristic length-scale, long range correlations in space and time, and long memory, which are features also associated with fractional order systems. In this paper a public domain forest fires catalogue, containing information of events for Portugal, covering the period from 1980 up to 2012, is tackled. The events are modelled as time series of Dirac impulses with amplitude proportional to the burnt area. The time series are viewed as the system output and are interpreted as a manifestation of the system dynamics. In the first phase we use the pseudo phase plane (PPP) technique to describe forest fires dynamics. In the second phase we use multidimensional scaling (MDS) visualization tools. The PPP allows the representation of forest fires dynamics in two-dimensional space, by taking time series representative of the phenomena. The MDS approach generates maps where objects that are perceived to be similar to each other are placed on the map forming clusters. The results are analysed in order to extract relationships among the data and to better understand forest fires behaviour.

State Space Analysis of Forest Fires

This paper studies forest fires from the perspective of dynamical systems. Burnt area, precipitation and atmospheric temperatures are interpreted as state variables of a complex system and the correlations between them are investigated by means of different mathematical tools. First, we use mutual information to reveal potential relationships in the data. Second, we adopt the state space portrait to characterize the system’s behavior. Third, we compare the annual state space curves and we apply clustering and visualization tools to unveil long-range patterns. We use forest fire data for Portugal, covering the years 1980–2003. The territory is divided into two regions (North and South), characterized by different climates and vegetation. The adopted methodology represents a new viewpoint in the context of forest fires, shedding light on a complex phenomenon that needs to be better understood in order to mitigate its devastating consequences, at both economical and environmental levels.

Proposta de solução de videovigilância para locais remotos

Desde tempos remotos que homens faziam a vigilância de bens e mercadorias e mais recentemente também de pessoas com o intuito de dissuadir roubos, atos de vandalismo e de violência. Nos últimos anos, com a evolução das novas tecnologias verificou-se a sua adoção para auxílio da vigilância. Os atos de terrorismo que têm acontecido um pouco por todo o mundo trouxeram um clima de insegurança à população mundial. Este fenómeno, juntamente com o elevado número de roubos e atos de violência levou à expansão de utilização dos meios de videovigilância de forma a dissuadir estes tipos de crime podendo mesmo, nalguns casos servir como prova para punir os autores dos mesmos. Em Portugal tem-se verificado uma escalada de crimes nas zonas mais rurais não só de bens como as alfaias agrícolas mas também de frutos e mesmo de animais. Estes crimes predominam em locais rurais, relativamente distantes das povoações e em locais onde não existem (ou são praticamente inexistentes) infraestruturas necessárias para implementar meios de videovigilância como a falta de rede elétrica e internet o que torna quase inviável a existência de sistemas de videovigilância nesses locais. Dotar esses locais das infra estruturas necessárias poderia tornar-se demasiado dispendioso e os vigilantes humanos poderiam correr riscos no meio dos montes ou noutros locais remotos para além dos seus elevados custos. Para além do problema dos roubos, existe um outro flagelo relacionado com os incêndios na floresta portuguesa, que todos os anos é dizimada pelo fogo devido a incêndios que surgem na sua maioria causados pelo homem sendo uma parte significativa os de origem criminosa. Para dar resposta a estes problemas e no sentido de vigiar e dissuadir estes tipos de crimes, iniciamos um estudo que pretende propor um protótipo de um sistema de videovigilância para locais remotos (SVR - Sistema de Videovigilância Remota) de baixo custo de forma a diminuir o número de crimes e assim minimizar os prejuízos económico e sociais causados pelos mesmos. Pretendemos estudar o problema e analisar tecnologias com potencial para propor uma solução que possa auxiliar a vigilância nesse tipo de locais com o pressuposto de poder vir a contribuir para a diminuição deste tipo de crimes devido ao seu efeito dissuasor pelo facto de se poder divulgar que estes locais já têm uma solução de vigilância oculta. A solução proposta contempla um sistema de videovigilância com uma camara construída com base num Raspberry Pi onde o vídeo é transmitido em streaming via Web através de comunicações móveis. A alimentação do sistema nestes espaços sem energia elétrica é feita através de um painel fotovoltaico. É proporcionado ao utilizador uma interface para visualizar o vídeo transmitido e um mecanismo de notificações por email. É ainda possível a visualização de imagens gravadas num cartão de memória relativas a ocorrências de deteção de movimentos. Foram realizados inúmeros testes ao protótipo SVR sendo os resultados obtidos aqui descritos.