Research Plant Physiologist, Dale Bumpers National Rice Research Center, USDA-ARS, Stuttgart, AR 72160, USA.
J Chem Ecol. 2013 Feb;39(2):186-203. doi: 10.1007/s10886-013-0246-7. Epub 2013 Feb 9.
Weed-suppressive rice cultivars hold promise for improved and more economical weed management in rice. Interactions between roots of rice and weeds are thought to be modulated by the weed-suppressive activity of some rice cultivars, but these phenomena are difficult to measure and not well understood. Thus, above-ground productivity, weed suppression, and root distribution of 11 rice cultivars and two weed species were evaluated in a drill-seeded, flood-irrigated system at Stuttgart, Arkansas, USA in a two-year study. The allelopathic cultivars, PI 312777 and Taichung Native 1 (TN-1), three other weed-suppressive cultivars, three indica-derived breeding selections, and three non-suppressive commercial cultivars were evaluated in field plots infested with barnyardgrass (Echinochloa crus-galli (L.) Beauv.) or bearded sprangletop (sprangletop, Leptochloa fusca (L.) Kunth var. fascicularis (Lam.) N. Snow). The allelopathic cultivars produced more tillers and suppressed both weed species to a greater extent than did the breeding selections or the non-suppressive cultivars. (13)C isotope discrimination analysis of mixed root samples to a depth of 15 cm revealed that the allelopathic cultivars typically produced a greater fraction of their total root mass in the surface 0-5 cm of soil depth compared to the breeding selections or the non-suppressive cultivars, which tended to distribute their roots more evenly throughout the soil profile. These trends in root mass distribution were apparent at both early (pre-flood) and late-season stages in weed-free and weed-infested plots. Cultivar productivity and root distribution generally responded similarly to competition with the two weed species, but barnyardgrass reduced rice yield and root mass more than did sprangletop. These findings demonstrate for the first time that roots of the allelopathic cultivars PI 312777 and TN-1 explore the upper soil profile more thoroughly than do non-suppressive cultivars under weed-infested and weed-free conditions in flood-irrigated U.S. rice production systems. They raise the interesting prospect that root proliferation near the soil surface might enhance the weed-suppressive activity of allelochemical exudates released from roots. Plant architectural design for weed suppressive activity should take these traits into consideration along with other proven agronomic traits such as high tillering and yield.
具有抑制杂草特性的水稻品种有望改善和提高稻田杂草管理的经济效益。研究认为,一些水稻品种的抑制杂草活性可能会影响水稻根系与杂草之间的相互作用,但这些现象难以测量,也尚未被充分了解。因此,在阿肯色州斯图尔特特市的一个水耕、淹水灌溉系统中,我们开展了一项为期两年的研究,评估了 11 个水稻品种和 2 种杂草在地上生产力、杂草抑制和根系分布方面的表现。在稗草(Echinochloa crus-galli (L.) Beauv.)或节节草(Leptochloa fusca (L.) Kunth var. fascicularis (Lam.) N. Snow)侵染的田间小区中,评估了具化感作用的品种 PI 312777 和台南 1 号(TN-1)、3 个其他具有抑制杂草特性的品种、3 个籼稻衍生的选育品种和 3 个非抑制性商业品种。与选育品种或非抑制性品种相比,具化感作用的品种分蘖更多,对两种杂草的抑制作用更强。对混合根系样本进行(13)C 同位素歧视分析,结果表明,与选育品种或非抑制性品种相比,具化感作用的品种通常会将其总根质量的更大部分集中在土壤深度 0-5cm 的表层,而选育品种或非抑制性品种的根系则更均匀地分布在整个土壤剖面中。在无杂草和杂草侵染的小区中,无论是在早期(淹水前)还是后期,这种根系质量分布的趋势都很明显。品种生产力和根系分布对与两种杂草的竞争通常反应相似,但稗草对水稻产量和根系质量的降低作用大于节节草。这些发现首次表明,在淹水灌溉的美国水稻生产系统中,具化感作用的品种 PI 312777 和 TN-1 的根系比非抑制性品种更深入地探测土壤上层,在有杂草和无杂草的条件下都是如此。这一发现提出了一个有趣的前景,即靠近土壤表面的根系增殖可能会增强根系分泌物的化感抑制杂草活性。在设计具有抑制杂草活性的植物结构时,除了分蘖和产量等其他已被证实的农艺性状外,还应考虑这些性状。
