Abstract
Rubber tree production is reduced by weeds that compete for environmental resources; therefore, the timing and duration of weed control influences weed interference. The objectives of this study were to evaluate the growth of rubber tree (Hevea brasiliensis) plants, to determine the critical period for weed control, and to evaluate the growth recovery of rubber trees that coexisted with weeds for different periods of time after planting. Two groups of treatments were established under field conditions in the first year of the investigation: one group contained crescent periods of weed infestation, while the other contained crescent periods of weed control, also including a weed-free check and a total weedy check. In the second year of the investigation, the weeds were totally controlled. Urochloa decumbens was the dominant weed (over 90% groundcover). Crop growth was greatly reduced due to the weed interference. Plant height decreased more rapidly than did any other characteristic. Plant height, leaf dry mass, and leaf area decreased by 99%, 97% and 96%, respectively, and were the most reduced characteristics. Plant height also recovered more rapidly than did any characteristic when the period of weed control was lengthened. However, stem dry mass increased by 750%, making it the most recovered characteristic. The critical period for weed control was between 4 and 9½ months after planting in the first year; however, the rubber trees showed an expressive growth recovery when the weeds were controlled throughout the second year.
Highlights
Weed interference is an important issue reducing plant growth and, increasing the time required for the plants to reach maturity (Vollmann et al 2010, Rabbani et al 2011)
During periods of weed infestation, plant height showed the lowest g value (Table I), being the most sensitive rubber tree characteristic. Comparing this value with that of the other characteristics, we identified the sequence of rubber tree characteristic sensitivity due to increased weed interference as follows: plant height > stem dry mass > aboveground dry mass > leaf area > leaf dry mass > stem diameter > leaf number
During periods of weed control, the leaf number showed the lowest g value, being the least sensitive rubber tree characteristic. Comparing this value with that of the other characteristics, we identified the sequence of rubber tree characteristic sensitivity due to increased weed control as follows: leaf number > stem diameter > plant height > leaf dry mass > aboveground dry mass > stem dry mass > leaf area
Summary
The tree is a perennial, cross-pollinating and Brazil is not self-sufficient in rubber production; any factor affecting latex extraction can be very detrimental to rubber production. Latex production by rubber trees can be affected by biotic factors, such as microorganisms causing plant diseases, and other factors that increase the amount of time required for the plants to reach maturity, when latex can be extracted (Gonçalves et al 2001). Weed interference (the result of weed competition for light, CO2, water, nutrients, and space, as well as of the allelopathic effects of some weed species) is an important issue reducing plant growth and, increasing the time required for the plants to reach maturity (Vollmann et al 2010, Rabbani et al 2011)
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