Effects of Root Growth of Deep and Shallow Rooting Rice Cultivars in Compacted Paddy Soils on Subsequent Rice Growth

IF 5.6 2区 农林科学 Q1 AGRONOMY
Md. Dhin Islam , Adam H. Price , Paul D. Hallett
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引用次数: 0

Abstract

Rice is often grown as multiple seasons in one year, alternating between flooded and upland systems. A major constraint, introduced from the flooded system, is a plough pan that may decrease rooting depth and productivity of follow-on upland rice. Roots penetrating the plough pan under flooded rice system can leave a legacy of weaker root growth pathways. Deeper rooting rice cultivars could have a bigger impact, but no direct evidence is available. To explore whether a deep rather than a shallow rooting rice cultivar grown in a flooded cropping cycle benefited deeper root growth of follow-on rice in an upland, reduced tillage cropping cycle, a simulated flooded paddy in greenhouse was planted with deep (Black Gora) and shallow (IR64) rooting cultivars and a plant-free control. Artificial plough pans were made in between the topsoil and subsoil to form different treatments with no plough pan (0.35 MPa), soft plough pan (1.03 MPa) and hard plough pan (1.70 MPa). After harvest of this ‘first season’ rice, the soil was drained and undisturbed to simulate zero-tillage upland and planted rice cultivar BRRI Dhan 28. The overall root length density (RLD), root surface area, the numbers of root tips and branching of BRRI Dhan 28 did not vary between plough pan and no plough pan treatments. Compared with the shallow rooting rice genotype, the deep rooting rice genotype as ‘first season’ crop produced 19% greater RLD, 34% greater surface area and 29% more branching of BRRI Dhan 28 in the subsoil. In the topsoil, however, BRRI Dhan 28 had 28% greater RLD, 35% greater surface area and 43% more branching for the shallow rather than deep rooting genotype planted in the ‘first season’. The results suggested that rice cultivar selection for a paddy cycle affects root growth of a follow-on rice crop grown under no-till, with benefits to subsoil access from deep rooting cultivars and topsoil proliferation for shallow rooting cultivars.

深根和浅根水稻品种在压实水稻土中根系生长对后续水稻生长的影响
水稻通常在一年中种植多个季节,在水淹和旱地系统之间交替种植。一个主要的限制,从淹水系统引入,是一个犁盘,可能会降低生根深度和后续旱稻的生产力。淹水水稻根系穿透犁盘后,根系生长路径较弱。根深的水稻品种可能有更大的影响,但没有直接的证据。为了探究淹水种植周期中深根水稻品种是否比浅根水稻品种更有利于旱地免耕种植周期中后续水稻的深根生长,在温室模拟淹水水稻中种植深根(Black Gora)和浅根(IR64)品种,并进行无植株对照。在表土和底土之间设置人工犁盘,形成无犁盘(0.35 MPa)、软犁盘(1.03 MPa)和硬犁盘(1.70 MPa)的不同处理。在“第一季”水稻收获后,土壤被排干,不受干扰,模拟零耕作的旱地,种植水稻品种BRRI Dhan 28。BRRI丹28的总根长密度(RLD)、根表面积、根尖数和分枝数在耕盘处理和不耕盘处理之间无显著差异。与浅根水稻基因型相比,深根水稻基因型作为“第一季”作物,BRRI Dhan 28在地下的RLD增加19%,表面积增加34%,分枝增加29%。然而,在表层土壤中,BRRI Dhan 28在“第一季”种植的浅根基因型比深根基因型的RLD高28%,比深根基因型的表面积大35%,分枝多43%。结果表明,水稻周期的品种选择影响免耕后续作物的根系生长,有利于深根品种对底土的通达和浅根品种对表土的增殖。
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来源期刊
Rice Science
Rice Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
8.90
自引率
6.20%
发文量
55
审稿时长
40 weeks
期刊介绍: Rice Science is an international research journal sponsored by China National Rice Research Institute. It publishes original research papers, review articles, as well as short communications on all aspects of rice sciences in English language. Some of the topics that may be included in each issue are: breeding and genetics, biotechnology, germplasm resources, crop management, pest management, physiology, soil and fertilizer management, ecology, cereal chemistry and post-harvest processing.
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