An experiment was carried out in Santa Maria, RS, to study the effects of different soil and leaf diseases management for watermelon on soil fauna. The treatments were: 1) Conventional Tillage (CT) 2) CT with strip (s) without plowing; 3) No-Till (NT)+Chisel (Ch)+Herbicide (H); 4) NT+Ch without H; 5) NT+H and 6) NT. All NT had black oat straw over the soil. The subplots had the leaf disease control treatments: 1) Check Plot, without control; 2) Chemical, with fungicide; Ecological, with a mixture of “calda bordalesa” + “Supermagro” + “Alhol”. Tretzel pitfalls traps were placed in plots before seeding and in subplots during watermelon vegetative cycle. Samplings were done: at 45 and 5 days before and at 30, 67 and 90 days after watermelon seeding. Each trap stayed 4 days at field. Were calculated richness, abundance and Simpson’s diversity index (SDI). Acari population was higher in CTs than NT+Ch and Collembola population was higher in CTs than in NT+Ch+H, NT+Ch e NT+H, before watermelon seeding. However, Collembola population in CT and CTs was smaller than NT at 90 DAS. Coleoptera population was smaller in CTs than in NT+Ch+H and NT, while Hymenoptera population was not affected by soil management. Conventional tillage in strips decreased richness at 5 and 30 days before watermelon seeding and abundance at 90 DAS. NT treatments didn t affect richness and abundance. Chemical leaf disease management increased abundance. Simpson’s diversity index was not affected by soil management nor by leaf disease management.
[1]
L. Brussaard,et al.
Effect of various mulches on soil microarthropods under a maize crop
,
1995,
Biology and Fertility of Soils.
[2]
V. Brown,et al.
Effects of initial site management on the Coleoptera assemblages colonising newly established chalk grassland on ex-arable land
,
2002
.
[3]
V. Hallaire,et al.
The role of macrofauna in the transformation and reversibility of soil structure of an oxisol in the process of forest to pasture conversion
,
2001
.
[4]
M. A. Badejo,et al.
Abundance and diversity of soil mites of fragmented habitats in a biosphere reserve in Southern Nigeria
,
2000
.
[5]
D. Coleman,et al.
Invertebrates as Webmasters in Ecosystems
,
2000
.
[6]
G. Tian,et al.
Abundance of soil mites under four agroforestry tree species with contrasting litter quality
,
1999,
Biology and Fertility of Soils.
[7]
K. Fischer,et al.
Colonisation of a copper-decontaminated soil by micro- and mesofauna
,
1998
.
[8]
P. Lavelle,et al.
Factors influencing soil macrofaunal communities in post-pastoral successions of western France
,
1998
.
[9]
D. Villàs.
Biología del suelo
,
1995
.
[10]
Nigel E. Stork,et al.
Invertebrates as determinants and indicators of soil quality
,
1992
.