Recipientes e substratos na produção de mudas e no cultivo hidropônico de tomilho (Thymus vulgaris L. ) / Containers and substrates on seedling production and hydroponic cultivation of thyme (Thymus vulgaris L. )

Bandejas com diferente número de células (128, 200 e 288) e dois substratos (fibra de casca de coco e casca de pinus) foram avaliados para a produção de mudas de tomilho e sobre o desempenho das plantas em sistema hidropônico. Para ambos os experimentos, o delineamento foi em blocos ao acaso. As mudas provenientes de estaquia foram avaliadas aos 30 dias quanto ao comprimento e massa seca de raízes. Aos 40 dias após o transplante das mudas, as plantas cultivadas em sistema hidropônico foram avaliadas quanto à massa fresca da parte aérea, massa seca da parte aérea e massa seca das raízes. A maior massa seca de raízes foi obtida para as mudas cultivadas em substrato à base de casca de fibra de coco. As mudas com maior comprimento de raízes foram obtidas nas bandejas com 128 e 200 células. As plantas de tomilho provenientes de mudas produzidas em bandejas de 128 células apresentaram maior massa fresca da parte aérea, massa seca da parte aérea e massa seca das raízes.

Trays with different number of cells (128, 200 and 288) and two substrates (coir and pine bark-based) were studied for thyme seedling production and plant development in hydroponic system. In both experiments, experimental design was in randomized blocks. Seedlings from cuttings were evaluated at 30 days as to root length and dry matter. At 40 days after transplanting, plants grown in hydroponic system were evaluated for shoot fresh matter, shoot dry matter and root dry matter. The highest root dry matter was detected in seedlings grown in coir-based substrate. Seedlings that presented the greatest root length were obtained by using trays with 128 and 200 cells. Thyme plants from seedlings produced in trays with 128 cells had higher shoot fresh matter, shoot dry matter and root dry matter.

Removal of nutrients in denitrification system using coconut coir fibre for the biological treatment of aquaculture wastewater.

Ideal bacterial support medium for fixed film denitrification processes/bioreactors must be inexpensive, durable and possess large surface area with sufficient porosity. The present study has been focussed on removing nitrate nitrogen at two different nitrate nitrogen loading rates (60 (NLR I) and 120 (NLR II) mg l-1) from simulated aquaculture wastewater. Coconut coir fibre and a commercially available synthetic reticulated plastic media (Fujino Spirals) were used as packing medium in two independent upflow anaerobic packed bed column reactors. Removal of nitrate nitrogen was studied in correlation with other nutrients (COD, TKN, dissolved orthophosphate). Maximum removal of 97% at NLR-I and 99% at NLR – II of nitrate nitrogen was observed in with either media. Greater consistency in the case of COD removal of upto 81% was observed at NLR II where coconut coir was used as support medium compared to 72% COD removal by Fujino Spirals. The results observed indicate that the organic support medium is just as efficient in nitrate nitrogen removal as conventionally used synthetic support medium. The study is important as it specifically focuses on denitrification of aquaculture wastewater using cheaper organic support medium in anoxic bioreactors for the removal of nitrate nitrogen; which is seldom addressed as a significant problem.

Production of cellulase by Aspergillus niger under submerged and solid state fermentation using coir waste as a substrate

Aspergillus niger was used for cellulase production in submerged (SmF) and solid state fermentation (SSF). The maximum production of cellulase was obtained after 72 h of incubation in SSF and 96 h in Smf. The CMCase and FPase activities recorded in SSF were 8.89 and 3.56 U per g of dry mycelial bran (DBM), respectively. Where as in Smf the CMase & FPase activities were found to be 3.29 and 2.3 U per ml culture broth, respectively. The productivity of extracellular cellulase in SSF was 14.6 fold higher than in SmF. The physical and nutritional parameters of fermentation like pH, temperature, substrate, carbon and nitrogen sources were optimized. The optimal conditions for maximum biosynthesis of cellulase by A. niger were shown to be at pH 6, temperature 30 ºC. The additives like lactose, peptone and coir waste as substrate increased the productivity both in SmF and SSF. The moisture ratio of 1:2 (w/v) was observed for optimum production of cellulase in SSF.

Quantification of polyphenols during retting and characterization of bacteria from the Kadinamkulam Backwaters, Kerala.

The retting environment which provides a competitive niche for specialized microbes is speculated to harbour a variety of microbes with high biodegradation potential. In this context, an effort has been made to isolate and identify bacterial species having high tolerance to phenol In vitro. Maximum polyphenol (1.897 mg l-1 ) as observed during the initial period of retting, which decreased as retting proceeded. Based on biochemical characterization, the isolated bacterial strains were identified as Micrococcus sp., Moraxella sp. strain MP1, Moraxella sp. strain MP2 and Moraxella sp. strain MP3, Pseudomonas sp. strain PP1 and Pseudomonas sp. strain PP2, Amphibacillus sp., Brucella sp. strain BP1 and Brucella sp. strain BP2, Aquaspirillum sp., Escherichia coli strain EP1 and Escherichia coli strain EP2, Campylobacter sp., Aeromonas sp., Neisseria sp., Vibrio sp., Erwinia sp. and Mesophilobacter sp. These strains were found to tolerate maximum concentration of phenol viz. 200 to 1000 mg l-1. Plasmid analysis of phenol resistant bacterial isolates showed that almost all the cultures had at least one plasmid of size >1Kb. Studies on the protein profile of isolated bacterial cultures showed the presence of proteins with molecular sizes ranging from 10 to 85 KDa with exception of Mesophilobacter and Neisseria having still high molecular weight protein (95 KDa). Bacterial strains isolated from coir-ret-liquor showed tolerance to high phenol concentration.

Estaquia de Ginkgo biloba L. utilizando três substratos / Ginkgo biloba L. cutting using three substrates

Ginkgo biloba é arbórea, decídua, cuja folhagem se torna amarelada no outono antes da queda das folhas, o que a torna valorizada em jardinagem. A estaquia é um método de propagação vegetativa baseado na capacidade das células em retomarem o processo de divisão celular, formando raízes em estacas destacadas de ramos provenientes de plantas matrizes. O presente trabalho teve como objetivos verificar a influência de diferentes substratos, assim como, a aplicação da auxina sintética o ácido indol butírico (AIB) no enraizamento de estacas de Ginkgo biloba. No inverno de 2005, ramos foram coletados e transportados até o Laboratório de Macropropagação, onde foram confeccionadas estacas sem folhas, com 10-12 cm de comprimento. Os tratamentos com regulador vegetal (T) foram T1- 0 mg L-1 AIB em solução; T2- 4000 mg L-1 AIB em solução; T3- 8000 mg L-1 AIB em solução; T4- 0 mg kg-1 AIB em talco; T5- 4000 mg kg-1 AIB em talco e T6- 8000 mg kg-1 AIB em talco. Para cada tratamento foram utilizados três diferentes substratos (S), S1- areia, S2- fibra de casca de coco (coxim) e S3- casca de arroz carbonizada. Após 120 dias da instalação, foram avaliadas as porcentagens de estacas enraizadas, vivas, com calos e mortas; o número de raízes por estaca e o comprimento das três maiores raízes por estaca. Os melhores resultados no enraizamento foram obtidos com estacas tratadas com 4000 e 8000 mg kg-1 AIB em talco, utilizando o coxim como substrato (45,00 e 46,25 por cento de enraizamento, respectivamente).

Ginkgo biloba is an arboreal and deciduous species, the foliage of which becomes yellowish in the autumn, before leaf drop, increasing its value for gardening. Cutting is a method of vegetative propagation based on the capacity of cells to recover the cell division process, originating roots in cuttings detached from branches of stock plants. This study aimed to verify the influence of different substrates, as well as the application of the synthetic auxin indole-3-butyric acid (IBA) in Ginkgo biloba cutting rooting. In the winter of 2005, branches were collected and sent to the Macropropagation Lab, where cuttings of 10-12cm length were made without leaves. The treatments with plant growth regulator (T) were T1- 0 mg L-1 IBA solution, T2- 4000 mg L-1 IBA solution, T3- 8000 mg L-1 IBA solution, T4- 0 mg kg-1 IBA in talc, T5- 4000 mg kg-1 IBA in talc, T6- 8000 mg kg-1 IBA in talc. Each treatment was planted in three substrates (S), S1- sand, S2- coir and S3- carbonized rice hull. After 120 days, the percentages of cuttings that were rooted, alive, with callus and dead were evaluated, besides the number of roots per cutting and the length of the three highest roots per cutting. The best results regarding rooting were obtained for cuttings treated with 4000 and 8000 mg kg-1 IBA in talc, by using coir as substrate (45.00 and 46.25 percent rooting, respectively).

Aclimatização de mudas micropropagadas de helicônia em ambiente protegido em função do tipo de substrato / Acclimatization of micropropagated heliconia plants in different substrates

A etapa de aclimatização é uma fase crítica da micropropagação vegetal, podendo ser responsável por altos índices de mortalidade, baixas taxas de crescimento e desuniformidade das plantas. Um fator fundamental na aclimatização é tipo de substrato a ser utilizado. Nesse trabalho, objetivou-se avaliar o efeito de diferentes substratos na aclimatização de mudas micropropagadas de helicônia (Heliconia lingulata Ruiz & Pav.). A pesquisa foi conduzida em um túnel alto de cultivo forçado pertencente à Embrapa Agroindústria Tropica,l situada no município de Fortaleza - CE, Brasil (3º44'S e 38º33'W). O delineamento experimental utilizado foi em blocos casualizados com cinco tratamentos e cinco repetições. Os substratos testados foram: T1 -pó-de-coco seco + húmus de minhoca + solo (PCS+H+S); T2 -pó-de-coco verde + vermiculita + composto de cama de frango (PCV+V+CCF); T3 -pó-de-coco verde + húmus de minhoca + solo (PCV+H+S); T4 -pó-de-coco seco + vermiculita + composto de cama de frango (PCS+V+CCF); e T5 - substrato comercial Hortimix® (HORT). As variáveis agronômicas, avaliadas no experimento foram: altura da planta, número de folhas e diâmetro do pseudocaule. Os resultados do experimento evidenciaram o maior desenvolvimento das mudas micropropagadas de helicônia, quando o substrato utilizado foi a combinação pó de coco verde + húmus de minhoca + solo (PCV + H + S).

Acclimatization is the most important and critical plant micropropagation phase. It can be responsible for high mortality rate, low growth rate, and plant heterogeneity. One of the limiting factors in plant acclimatization is the substrate. The objective of this work was to evaluate the effect of different substrates on the acclimatization of micropropagated heliconia plants (Heliconia lingulata Ruiz & Pav.). The research was carried out in a greenhouse at the Embrapa Tropical Agroindustry located in Fortaleza, Ceará, Brazil (3º44' S and 38º33' W). The experimental design was a randomized block with five treatments and five repetitions. The substrates tested were: T1 - dry 'coir' dust + earthworm humus + soil (DCD+EH+S); T2 - green 'coir' dust + vermiculite + poultry litter (GCD+V+PL); T3 - green 'coir' dust + earthworm humus + soil (GCD+EH+S); T4 - dry 'coir' dust + vermiculite + poultry litter (DCD+V+PL) and T5 -Hortimix® (HORT). The variables evaluated in the experiments were plant height, number of leaves, and diameter of the pseudostem. The results revealed that the best development of micropropagated heliconia plants was with a combination of green 'coir' dust + earthworm humus + soil (GCD+EH+S).