O impacto ambiental provocado por práticas agropecuárias extrativistas é preocupante a nível mundial do ponto de vista ambiental e econômico, visto que a degradação das áreas causa impacto ambiental, afeta diretamente a produção vegetal e indiretamente a produção animal. Com a finalidade de diminuir os danos ao meio ambiente e adotar modelos de produção mais eficientes e sustentáveis, o governo brasileiro lançou políticas governamentais com incentivo por meio de financiamento para implantação destes. A iLPF consiste no cultivo simultâneo ou em sucessão para produção de alimento de origem animal e vegetal além da produção de recursos madeireiros e não-madeireiros. Esse sistema possibilita a diversificação da renda, maior produtividade, benefícios ao solo e ao sistema, recuperação de áreas degradadas e é de baixo impacto ambiental, contudo esses podem não ocorrer em circunstâncias de implantação e manejo incorreto de seus componentes resultando em um cenário de desequilíbrio e competição. O componente florestal, por permanecer por mais tempo na área de produção, deve-se dar atenção à escolha da espécie a ser utilizada bem como ao arranjo a ser adotado, visto que pode influenciar seu próprio desenvolvimento e dos demais componentes vegetais. Frente a complexidade do sistema e seus potenciais benefícios, são essenciais pesquisas acerca da iLPF para síntese de informações sobre os melhores modelos a serem adotados em função da diversidade ambiental e realidades socioeconômicas brasileiras.
Rubber tree (Hevea brasiliensis) is a native species of the Amazon biome. This species had great economic importance due to the production of latex, used to obtain natural rubber. Seeking growth in productivity with adequate management is necessary to optimize production and increase areas with rubber trees. This study aimed to verify the physical and chemical attributes of soil under three different managements and two rubber tree clones, searching for the best alternative for the general edaphoclimatic conditions of the Cerrado biome. The experiment was installed in Palmeiras of Goiás, GO, Brazil, in a randomized block design in a 2×3 factorial arrangement, consisting of two rubber tree clones (PB 312 and RRIM 600) and three management strategies (organomineral fertilizer with poultry litter, pigeon pea as green manure, and mechanical mowing-brushcutter). Physical attributes such as soil density, soil penetration resistance, soil moisture and aggregation, soil fertility, and tree development were analyzed. Statistical analyses of variance and Tukey test were carried out in order to compare the dendrometric data and physical and chemical attributes of the soil under the different treatments applied in the inter-row of rubber trees. No significant statistical differences were found among treatments and between clones in relation to soil physical attributes. However, the soil pH reduced the use of organomineral fertilizer and the clone RRIM 600 had the highest heights.
The rubber tree is a species native to the Amazon biome of great economic importance. Analyzing the soil physical attributes allows for quantifying the impact of different management practices on the soil properties and the yield of rubber plantations. The present experiment was developed on Red-Latosol soil cultivated with rubber tree (Hevea brasiliensis) since 2013. The experiment was set up as a factorial (2x3) design with two rubber-tree clones (PB 312 and RRIM 600) and three management strategies (organomineral fertilizer - poultry litter; mowing followed by mineral fertilizer application; green manure - pigeonpea [Cajanus cajan], as a cover crop) applied annually, with five replicates. Treatments were applied annually but the soil samples were collected at two times: firstly in 2015 (T1) and subsequently on 2016 (T2). Results revealed a reduction of microporosity, macroporosity, and total porosity and an increase in soil density with depth. However, no significant difference was detected across the management strategies for any of the evaluated traits. The different management strategies did not significantly influence the rubber-tree trunk circumference, suggesting a need for further evaluations throughout the entire development of individuals so that the response of this species can be quantified.
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