Measuring and Modeling Hydraulic Lift of Lolium multiflorum Using Stable Water Isotopes

Measuring and Modeling Hydraulic Lift of Lolium multiflorum Using Stable Water Isotopes

This study tested a method to quantify and locate hydraulic lift (HL, defined as the passive upward water flow from wetter to dryer soil zones through the plant root system) by combining an experiment using the stable water isotope 1H218O as a tracer with a soil–plant water flow model. Our methodolo...

Mô tả chi tiết

Lưu vào:
Hiển thị chi tiết
Tác giả chính: Meunier, F.
Đồng tác giả: Rothfuss, Y.
Định dạng: BB
Ngôn ngữ:English
Thông tin xuất bản: 2020
Chủ đề:
Days after seeding
Hydraulic lift
Root length density
Root water uptake
Truy cập trực tuyến:http://tailieuso.tlu.edu.vn/handle/DHTL/9697
Từ khóa: Thêm từ khóa bạn đọc
Không có từ khóa, Hãy là người đầu tiên gắn từ khóa cho biểu ghi này!
Mô tả
Tóm tắt:This study tested a method to quantify and locate hydraulic lift (HL, defined as the passive upward water flow from wetter to dryer soil zones through the plant root system) by combining an experiment using the stable water isotope 1H218O as a tracer with a soil–plant water flow model. Our methodology consisted in (i) establishing the initial conditions for HL in a large rhizobox planted with Italian ryegrass (Lolium multiflorum Lam.), (ii) labeling water in the deepest soil layer with an 18O‐enriched solution, (iii) monitoring the water O isotopic composition in soil layers to find out changes in the upper layers that would reflect redistribution of 18O‐enriched water from the bottom layers by the roots, and (iv) comparing the observed soil water O isotopic composition to simulation results of a three‐dimensional model of water flow and isotope transport in the soil–root system. Our main findings were that (i) the depth and strength of the observed changes in soil water O isotopic composition could be well reproduced with a modeling approach (RMSE = 0.2‰, i.e., equivalent to the precision of the isotopic measurements), (ii) the corresponding water volume involved in HL was estimated to account for 19% of the plant transpiration of the following day, i.e., 0.45 mm of water, and was in agreement with the observed soil water content changes, and (iii) the magnitude of the simulated HL was sensitive to both plant and soil hydraulic properties.

Tài liệu tương tự