As the planting distances and strains of the Smooth Cayenne variety play an essential role on the crop in pineapple, it is of great importance to ascertain the optimum spacing, between double-rows and between plants in the row, as well as a desirable strain for closer planting in order to obtain a maximum yield. This experiment was a 2×2×3 factorial randomized complete block design with four replications, using 900×300cm, plots. The three factors consisted of two levels of strains of the Smooth Cayenne variety, i.e. the No. 2 strain and the San-Ling strain; two levels of spacing between double-rows, i.e. 90cm. and 120cm.; three levels of spacing between plants in the row. i.e. 30cm., 36cm., and 45cm., as a total of twelve treatment combinations. The distance between rows were 60cm. in all plots. The experiment was conducted at the Chiayi Agricultural Experiment Station. Slips were used as planting material which were planted at the beginning of October, 1956. The field was managed as usual way. Neither de-crown nor de-slip was done after flowering of the summer crops as it was usually done by farmers in Taiwan for improving the form and size of fruit. Nor was calcium carbide treatment made for hastening the flower bud formation. Compost was used as basic manure. 0.4kg. compost per plant was applied about 30cm. under the soil surface between rows on the bed. Chemical fertilizers were applied four times a year. 13gm, of ammonium sulfate and 23gm, of a 10-6-10 mixed fertilizer were applied to each plant alternatively. Since the winter of 1946, fruits harvested were weighed and graded individually according to size. They were graded into four size classes in the conventional way with rigid iron rings having inside diameter of 130, 115 and 100 millimeters. One week before every summer crop began to be harvested, numbers of suckers and slips on the fruit-bearing plants were counted. The filed was carried into the second rations, namely a plant crop and two ratoon crops were harvested. Results obtained may be summarized as follows: (1) The analysis of variance made on the total yield data from the three harvests showed that the effects of strains, spacings between double-row, spacings between plants in the row and the interaction for strains and the spacings between plants in the row were highly significant. (2) The No. 2 strain prodnced 94.6 metric tons of fruit per hectare as a total yield of the three harvests, which was 19.8 metric toms more than the yield of the San-ling strain. (3) By decreasing the distance between paired-rows from 120cm. to 90 cm. the yield of the three harvests per hectare increase almost 12.8 metric tons or 16.2%. (4) As to the spacing between plants in the row, yields increased progressively with the reduction in spacing from 45cm to 30cm between plants, (the maximum increase being 30.6 metric tons hectare) The difference in yield between any two of the three spacing levels were all statistically very significant. (5) In case of the No. 2 strain, yield decreased with the increase of the spacing between plants in the row, difference in yields between any two levels of which showed statistically very significant. While in case of the San-Ling strain, although yield decreased too with the increase of the spacing between plants in the row, difference in yields, between 30 cm. and 30cm. was not significant, between 36cm. and 45cm. significant, and between 30cm. and 45cm. very significant. (6) When the spacings between plants in the row were 30cm. and 36cm. there were very significant differences in yields between the both strains. Spacing increases to 45cm. the difference in yield between them showed insignificant. Obviously the San-Ling strain is quite undesirable for closer planting. (7) The highest yield was obtained in the closest planting. i.e. spacings between beds, rows, and plants were 90-60-30cm. planted the No .2 strain which giving a total yield of fruit of three harvests up to 120.96 metric tons per hectare, comparing this treatment with any other eleven treatments, the differences in yield were all statistieally very significant, in the case of the widest spacings. i.e. spacings between beds, rows, and plants were 120-60-45 cm. yields were the lowest in both strains among the twelve treatments. Differences between that highest and these lowest yields were 62-65 metric tons per hectare. This fact proves that the effect of close spacing on yield is very prominent. (8) A majority of the total yield was given by the summer crop and less than one nineth of which by the winter crop, and only a very small portion of which by the spring crop. As concerning to the grades of all the fruits, both strains produced a large proportion (in weight) of first-class fruits than second-class ones in winter crop. But in the summer crop, fruit grades differed with the different strains. The No. 2 strain produced more first-class fruits than second-class ones, On the contrary the San-Ling strain produced fist-class fruits less than the second-class ones. (9) Suckering in the plant crop was uniform at all spacings of a given strain, but was different in average number per plant with different strains. The same case was the number of slips per plant in the plant crop. Obviously the formation of suckers and slips is controlled by genetic genes. The No. 2 strain produced suckers earlier and slips less in number than the San-Ling strain. (10) It was found that the formation of multiple crown fruit, which has been fairly common in pineapple plantations in Taiwan, showed no relation to the planting system. Moreover both strains produced a very similar percentage of multiple crown fruit. (average 9.40%, the No. 2 strain 8.31%, and the San-Ling strain 10.49%) Under the climatic conditions of Taiwan and the methods of crop management employed, the closer spacing does not interfere with cultural or harvesting operations. Cuite apart from the increased yield per hectare which could be expected in an average season, closer spacing would be an advantage from the point of view of weed control and soil moisture conservation; the greater shading of the soil between be rows tends to suppress weed growth early in the growing period and to reduce the loss of soil moisture by evaporation. The No. 2 strain possesses several distinctive or superior characteristics, such as it producing suckers ealier, forming slips less in number and the most important, being more productive and more favaurable to closer planting. So this strain should be propagated and distributed to the farmers in large exten in the near future in order to substitute the San-Ling strain which was commonly cultivated by farmers in Taiwan.