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Utiliza??o de pseudocaule de bananeira como cobertura morta de solos cultivados com laranjeira lima (Citrus sinensis Osbeck) e mamoeiro (Carica papaya L.) sob manejo org?nico de produ??o. / Use of banana pseudo -stem as mulch in soil cultivated with sweet orange (Citrus sinensis Osbeck) and papaya (Carica papaya L.) in an organic system of production.Nogueira, Rafael Marques 23 March 2006 (has links)
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Previous issue date: 2006-03-23 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The present work was developed at the Integrated System of Agroecological Production
( Agroecological Small Farm of the Km 49 ), which is conducted through partnership among
three institutions: Embrapa, UFRRJ and PESAGRO-RIO. Two experiments were done, one of
them installed at orange tree orchard files and the other in an area cultivated with papaya trees
Baixinho de Santa Am?lia . The objectives of the first experiment were to evaluate the
effects of the dead cover banana tree pseudo-stem application in some chemical, physical and
biological soil variables as: temperature, humidity, available contents of some essential
elements and soil macro and mesofauna communities. Moreover, it was done an evaluation of
the nutrient contents of the orange leaf tissues. In the second experiment at the papaya orchad,
the effects of dead cover application were observed on the plants development, the nutrient
contents of the leaf tissues and on the spontaneous plants population. The experimental design
was of random blocks, with three treatments: an area maintained without covering, another
with dead cover formed with the straw of Paspalum notatum grass (in the case of orange) or
triturated Pennisetum purpureum cv. Napier grass (in the case of papaya); and the last formed
with fragments of pseudo-stem of banana trees. For the humidity determination two methods
were used, one through the gravimetric humidity (area with orange tree files) being collected
in the depths of: 0-0,05; 0,05-0,10; 0,10-0,20; 0,20-0,40 m and other for tensiometry (area
with papaya trees) in the depths of 0-0,10 and 0,10-0,20 m. The temperature was taken jointly
with the humidity, with aid of the digital geothermometer in the layer of 0-0,05 m of the soil.
For characterization of the edaphic fauna two methodologies were used: for collection of the
mesofauna (Berlesse-T?llgren) and macrofauna (TSBF), being the samplings accomplished in
the beginning and at the end (macrofauna) and in the beginning, middle and at the end
(mesofauna) of the experiment. In the papaya tree plants, it was evaluated the height, diameter
of the stem; the radius of the leaf blade; the petiole length; height at the beginning of the
flowering and fructification. In relation to the spontaneous vegetation, collections were done
for evaluation by the application of some phytossociological indexes. The results indicate that
the pseudo-stem use increased the soil K+ content in the orange tree files and increased the P
and K in the leaf tissues of both fruit bowls, and reduced the temperature and the hydric
deficit in the first layers of the soil (up to 0,10 m) of the two areas. As for the edaphic fauna,
was verified that the banana tree pseudo-stem reduced the individuals' medium density,
differently of the effect of the covering of Paspalum notatum grass, when compared to the
soil without dead cover. It was observed that the group Oligochaeta was expressive and
negatively affected by the pseudo-stem cover. In the experiment with papaya trees, it was
verified that the use of the pseudo-stem as dead cover provided a decrease in the incidence of
the spontaneous vegetation, especially of the mad, beyond to contribute to the plants larger
vegetative development in the juvenile phase. Like this, it was evidenced that the use of dead
cover with fragments of banana tree pseudo-stem provided important impacts in some
chemical, physical and biological characteristics of the soil, as well as in the phytossociology
of spontaneous herbs and initial development of papaya trees. / Este trabalho foi desenvolvido no Sistema Integrado de Produ??o Agroecol?gica
( Fazendinha Agroecol?gica do Km 49 ), o qual ? conduzido atrav?s de parceria entre a
Embrapa, UFRRJ e PESAGRO RIO. Foram feitos dois experimentos, sendo um instalado
em pomar de laranjeira lima e outro em ?rea cultivada com mamoeiros Baixinho de Santa
Am?lia . O primeiro teve como objetivo avaliar os efeitos da cobertura morta de pseudocaule
de bananeira em vari?veis qu?micas, f?sicas e biol?gicas do solo, tais como: a temperatura,
teor de umidade, teores dispon?veis de alguns elementos essenciais e comunidades de macro e
mesofauna ed?ficas. Al?m disso, foi feita tamb?m uma avalia??o dos nutrientes essenciais nos
tecidos foliares da laranjeira. No segundo experimento, foi avaliado o efeito da cobertura
morta sobre o desenvolvimento das plantas, os teores de nutrientes nos tecidos foliares, na
temperatura e umidade do solo e na popula??o de plantas espont?neas. O delineamento
experimental foi o de blocos casualizados com tr?s tratamentos: ?rea mantida sem cobertura,
com cobertura morta formada de palha de grama batatais (laranjeiras) ou capim napier
triturado (mamoeiros); e com cobertura de fragmentos de pseudocaule de bananeiras. Na
determina??o de umidade foram utilizados dois m?todos, um por meio da umidade
gravim?trica (?rea com laranjeira lima) coletando-se nas profundidades de: 0-0,05; 0,05-0,10;
0,10-0,20; 0,20-0,40 m e outro por tensiometria (?rea com mamoeiros) nas profundidades de
0-0,10 e 0,10-0,20 m. A temperatura foi tomada conjuntamente com a umidade, com aux?lio
do geoterm?metro digital na camada de 0-0,05 m do solo. Para caracteriza??o da fauna
ed?fica foram empregadas as metodologias para coleta da mesofauna (Berlese-T?llgren) e
macrofauna (TSBF), sendo as amostragens realizadas no in?cio e ao final (macrofauna) e no
in?cio, meados e ao final (mesofauna) do experimento. Nas plantas de mamoeiro, foram
determinados a altura; o di?metro do caule; o raio do limbo foliar; o comprimento do pec?olo;
a altura de in?cio de florescimento e o in?cio de frutifica??o. Em rela??o ? vegeta??o
espont?nea, realizaram-se coletas para avalia??o atrav?s da aplica??o de ?ndices
fitossociol?gicos. Evidencia-se a partir dos resultados que o uso de pseudocaule propiciou
eleva??o no teor de K+ no solo cultivado com laranjeira lima e de P e K no tecido foliar de
ambas fruteiras, assim como uma redu??o da temperatura e atenua??o do deficit h?drico nas
primeiras camadas do solo (at? 0,10 m) das duas ?reas. Quanto ? fauna ed?fica, verificou-se
que o pseudocaule promoveu redu??o na densidade m?dia de indiv?duos, diferentemente do
efeito da cobertura de grama batatais, quando comparado ao solo sem cobertura morta.
Observou-se que o grupo Oligochaeta foi expressiva e negativamente afetado pela cobertura
com pseudocaule. No experimento com mamoeiros, verificou-se que a utiliza??o do
pseudocaule como cobertura morta provocou diminui??o na incid?ncia da vegeta??o
espont?nea, especialmente da tiririca, al?m de proporcionar ?s plantas maior desenvolvimento
vegetativo na fase juvenil. Assim, evidenciou-se que o emprego de cobertura morta com
fragmentos de pseudocaule de bananeira proporcionou impactos importantes em algumas
caracter?sticas qu?micas, f?sicas e biol?gicas do solo, bem como na fitossociologia de ervas
espont?neas e desenvolvimento inicial de mamoeiros.
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