限制鹰嘴豆根系在重质土壤中生长和萌发的物理条件

Seeds Pub Date : 2023-12-30 DOI:10.3390/seeds3010003
W. Vance, Richard W. Bell, Chris Johansen
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摘要

耕作方法决定了影响南亚印度-甘肃平原稻后鹰嘴豆(Cicer arietinum L.)出苗的几个土壤物理参数。与传统的全耕播种相比,在中-重质地土壤中进行机械化条播时,对土壤的扰动最小,作物残茬保留最少,这将改变苗床。虽然最小土壤扰动和适时播种可减轻土壤水分对作物生长的限制,但土壤强度、容重和团粒大小等其他土壤物理特性仍会抑制幼苗出土和根系伸长。本研究的目的是确定随着容重和土壤强度的增加,以及种子下方和上方不同的骨料大小对鹰嘴豆作物生长的限制。在两项生长柜研究中,鹰嘴豆种子被播种在粘土中,(i) 体积密度范围为 1.3-1.9 兆克/立方米(实验 1),(ii) 体积密度(1.3 和 1.8 兆克/立方米)和种子上方和下方骨料大小(4 毫米)的组合(实验 2)。随着容重的增加(>1.4 Mg m-3),根的长度明显减少,土壤强度在 >1 MPa 时会阻碍早期根的生长。在高容重和土壤强度阻碍主根生长的情况下,总根生长的较大比例与侧根的伸长有关。本研究表明,种子上方的土壤需要松散压实(<1.3 Mg m-3)才能出苗。需要进一步研究确定土壤团聚体的大小,以优化发芽和出苗。我们的结论是,印度-甘肃平原典型的田间条件下播种时的土壤强度值会阻碍鹰嘴豆幼苗的根系生长。通过改变耕作方式,使苗床条件在容重和土壤强度的限制范围内,可以将这种影响降到最低。
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Physical Conditions That Limit Chickpea Root Growth and Emergence in Heavy-Textured Soil
The tillage method determines several soil physical parameters that affect the emergence of post-rice chickpea (Cicer arietinum L.) in the Indo-Gangetic Plain of South Asia. Mechanised row-sowing with minimum soil disturbance and crop residue retention in medium-to-heavy-textured soils will alter the seedbed when compared to that prepared after traditional full tillage and broadcast sowing. Whilst minimum soil disturbance and timely sowing may alleviate the soil water constraint to crop establishment, other soil physical properties such as soil strength, bulk density, and aggregate size may still inhibit seedling emergence and root elongation. This study’s objective was to determine the limitations to chickpea crop establishment with increasing bulk density and soil strength, and different aggregate sizes below and above the seed. In two growth cabinet studies, chickpea seed was sown in clay soil with (i) a bulk density range of 1.3–1.9 Mg m−3 (Experiment 1) and (ii) the combination of bulk densities (1.3 and 1.8 Mg m−3) and aggregate sizes (<2 mm and >4 mm) above and below the seed (Experiment 2). Root length was significantly reduced with increasing bulk density (>1.4 Mg m−3), and soil strength impeded early root growth at >1 MPa. Where main root growth was impeded due to high bulk density and soil strength, a greater proportion of total root growth was associated with the elongation of lateral roots. The present study suggests that the soil above the seed needs to be loosely compacted (<1.3 Mg m−3) for seedling emergence to occur. Further research is needed to determine the size of the soil aggregates, which optimise germination and emergence. We conclude that soil strength values typical of field conditions in the Indo-Gangetic Plain at sowing will impede the root growth of chickpea seedlings. This effect can be minimised by changing tillage operations to produce seedbed conditions that are within the limiting thresholds of bulk density and soil strength.
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