A case study of a deliberate change in the design of a new Eucalyptus plantation, aimed at alleviating water impacts, was carried out in an experimental catchment located in the center part of the State of São Paulo, Brazil. It involved the identification of saturated areas in the catchment, based essentially on topographic analysis, as a tool to help in zoning of the new forest plantation, with the objective of improving the flow of water to downstream users, as well as to avoid water quality changes. The design involved the allocation of part of the identified saturated areas as water conservation areas, as well as a change in the spacing of the planting. Measurements of tree growth at the age of two years of the new plantation reveal that the forest productivity of the new plantation design, in terms of projected annual wood increment at the end of the rotation, will be similar to the old plantation scheme, despite the loss of planted area. Preliminary results of the continuous monitoring of the catchment water balance appear to indicate that the objective of increasing the catchment water yield may possibly also be achieved.
Electrochemical aptasensors can detect cancer biomarkers such as mucin 1 (MUC1) to provide point‐of‐care diagnosis that is low‐cost, specific and sensitive. Herein, a DNA hairpin containing MUC1 aptamer was thiolated, conjugated with methylene blue (MB) redox tag, and immobilized on a gold electrode by self‐assembly. The fabrication process was characterized by scanning electron microscopy, X‐ray spectroscopy analysis and electrochemistry techniques. The results evidenced a stable and sensitivity sensor presenting wide linear detection range (0.65–110 ng/mL). Therefore, it was able to precisely detect MUC1 production patterns in normal (RWPE‐1) and prostate cancer cells (LNCaP and PC3). The biosensor has ability to detect MUC1 in complex samples being an efficient and useful platform for cancer diagnosing in early stages and for physiological applications such as cancer treatment monitoring.
Forested catchments generally present conserved aquatic ecosystems without anthropogenic disturbances; however, forest management operations can degrade these environments, including their water quality. Despite the potential degradation, few studies have analyzed the effects of forest management in subtropical regions, especially in forest plantations with intensive management, such as Eucalyptus plantations in Brazil. The intensive management of those plantations is characterized by fast-growing, short rotation cycles, and high productivity. This study aimed to assess the effects of Eucalyptus plantations harvesting on the concentration and exportation of nutrients and suspended solids in subtropical streams. Results showed that clear-cut harvesting and subsequent forest management operations do not alter most of the concentration of nitrate, potassium, calcium, and magnesium. The concentration of suspended solids increased during the first year after timber harvesting in all studied catchments, however, the increases were statistically significant in only two catchments. In the first year after harvest, it was observed an increment of water yield/precipitation ratio at three catchments, which also increased export of nutrients and suspended solids. Our results showed that harvesting of fast-growing Eucalyptus forest plantations partially affected sediment exports and did not compromise water quality in the studied catchments. However, the catchment land-use design, especially related to road density and land-use composition, showed significant relationship with sediment exportation.
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