Abstract
Surface water ponding and crop hampering due to soil wetness was monitored in order to evaluate the effects of conservation tillage practices and perennial grass cover on soil infiltrability for five years in situ in gently sloping clayey fields. Thirteen experimental areas, each having three experimental fields, were established in southern Finland. The fields belonged to: autumn mouldboard ploughing (AP), conservation tillage (CT) and perennial grass in the crop rotation (PG). In the third year, direct drilled (DD) fields were established in five areas. Excluding PG, mainly spring cereals were grown in the fields. Location and surface area of ponded water (in the spring and autumn) as well as hampered crop growth (during June-July) were determined in each field by using GPS devices and GIS programs. Surface water ponding or crop hampering occurred when the amount of rainfall was clearly greater than the long-term average. The mean of the relative area of the ponded surface water, indicating the risk of surface runoff, and hampered crop growth was larger in the CT fields than in the AP fields. The differences between means were, however, not statistically significant. Complementary soil physical measurements are required to investigate the reasons for the repeated surface water ponding.;
Highlights
In boreal areas, growing annual crops by using conventional tillage practice leaves the soil surface bare outside the growing season, i.e., from September toMay
We described the effect of rainfall on the surface water ponding very roughly
Our results indicate that the infiltration capacity or the hydraulic conductivity of the wet stubble cultivated clayey soil with gentle slope were slightly lower than those of the mouldboard ploughed soil
Summary
In boreal areas, growing annual crops by using conventional tillage practice leaves the soil surface bare outside the growing season, i.e., from September toMay. In boreal areas, growing annual crops by using conventional tillage practice leaves the soil surface bare outside the growing season, i.e., from September to. The main part of the surface runoff, erosion and phosphorus loading from arable clayey fields into surface waters occurs outside the growing season during the autumn and spring runoffs Field practices that decrease or eliminate the need for tillage and maintain crop residue on soil surface are advocated worldwide due to their potential benefits in terms of erosion control. Conservation autumn tillage practices, including shallow stubble tillage and zero tillage, and perennial grass cover are known to be advantageous regarding erosion control in clayey soils in boreal areas as compared to conventional autumn ploughing
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call