6.8 plants/m2, selected to three cl

6.8 plants/m2
, selected to three clusters, a yield of 26.9 kg/m2
per year; b) “escaleriforme”
canopies of Vázquez-Rodríguez et al. (2007), which are placed in each crop bed three or
four rows of blunt plants at different heights and different numbers of clusters per plant,
oriented east-west, obtaining a density of 15.9 plants/m2
and yields of 24 kg/m2
per year;
c) interplanting system developed by Dorais et al. (1991), where new plants are planted
next to the old. Young or new plants have much more time to grow, while the adults are
harvested.
The aim of this study was to evaluate the productivity of the interplanting system
compared to the traditional system, under different densities, arranged on single and
double lines in a greenhouse without heating and natural ventilation.
MATERIALS AND METHODS
The experiment was conducted at the Queretaro State University, in Queretaro
Mexico (longitude: 100°15”57’W; latitude: 20°42”12’N) from March to September 2010.
We used two greenhouses: the first one had an area of 5600 m2
using a plot of 1000 m2
, whereas the second one had an area of 56 m2
, oriented north to south, both with
polyethylene cover, no equipment for heating and cooling, with natural ventilation.
The container was a ditch of 0.3 m wide, 45 m long and 0.4 m deep, the substrate
was volcanic rock. The cultivar of tomato was ‘Rafaello’ (BHN Company). This cultivar
was chosen for its earliness in production. Hydroponic nutrition was proposed by Sanchez
and Escalante (1989) as follows (in mg/L): N=250, P=60, K=250, Ca=300, S=200,
Mg=60, Fe=3, Mn=0.5, B=0.5, Cu=0.1 and Zn=0.1.
Crop Management
The experiment was divided into two parts. Phase 1: implementation of the first
crop, treatments, densities and arrangements, and phase 2, which was the so called
interplanting method where only the second crop was transplanted.
1. Phase 1. Planting of the first crop to the experimental greenhouse, with the following
treatments (T): T1; initial density 3 plants/m2
planted in double line, T2; initial density of
2.5 plants/m2
planted in double line, T3; initial density 2.5 plants/m2
planted a single line,
and the control (T4) only density throughout the cycle was 3 plants/m2
(Fig. 1).
At this stage from all treatments except T4 seven clusters were harvested. The
reason was to evaluate the method to maximum to 2 m, and to compare the cost of labor
required for this method and the traditional.
The T4 was harvested to 14 clusters to make it comparable with interplanted crops
(two crops of 7 clusters each).
2. Phase 2. In another greenhouse (56 m2
), the new plants were developed, that would be
interplanted in treatments T1, T2 and T3. These plants were planted 40 days after the first
crop and transplanted into containers of 750 ml coconut powder as substrate at a density
of 20 plants/m2
, were grown to develop the first flower cluster, which was the indicator to
be interplanted in the greenhouse production. The nutrient solution was the same as the
first crop. The purpose of transplanting the crop with the first flower cluster, is to be able
to make a continuous harvest after the first crop was harvested in its entirety, so it
matches that once the plant harvested seven clusters (first stage), the first cluster of the
plant of the second phase would represent the eighth to fourteenth cluster, which was the
total clusters to evaluate treatment four (traditional crop).
Once decapitated T1 and T2 (seven clusters) plants were moved from Phase 1 to
the ends of one wire that supports the crop, to make room for the second crop. (Fig. 2a
and b). T3 was harvested seven clusters without moving the plants; the cultivation of
phase 2 was transplanted on the same line between adult plants (Fig. 2c).
T4 continued until the end of their harvest with a traditional crop work (Velasco
and Nieto, 2006). The transplantation in the second phase was on the same substrate as
the cultivation of Phase 1. The new planting densities were: T1: 1.5 plants/m2
, T2:
2 plants/m2
and T3: 2 plants/m2
(Fig. 1).