Dynamics of water and ion transport driven by corn canopy in the Yellow River basin

Dynamics of water and ion transport driven by corn canopy in the Yellow River basin

Water and ion balance in a corn field in the semi-arid region of the upper Yellow River basin (Inner Mongolia, China) was analyzed with special reference to transpiration stream and selective nutrient uptake driven by the crop canopy. During the crop development stage (June 7 to July 17, 2005), crop...

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Bibliographic Details
Published in:Biológia Vol. 61; no. 19; pp. S275 - S279
Main Authors: Kitano, Masaharu, Daisuke Yasutake, Tetsuo Kobayashi, Kota Hidaka, Takahiro Wajima, Weizhen Wang, Wenjun He
Format: Journal Article
Language:English
Published: Versita 01-11-2006
Subjects:
active and selective uptake
calcium
canopy
capillarity
chlorides
corn
developmental stages
evaporation
evapotranspiration
groundwater
growing season
ions
irrigation water
magnesium
mass flow
nitrates
nutrient uptake
nutrients
phosphates
potassium
rhizosphere
river water
roots
sap
semiarid zones
sodium
soil
transpiration
transpiration stream
water and ion transport
watersheds
xylem
China
Yellow River
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Summary:Water and ion balance in a corn field in the semi-arid region of the upper Yellow River basin (Inner Mongolia, China) was analyzed with special reference to transpiration stream and selective nutrient uptake driven by the crop canopy. During the crop development stage (June 7 to July 17, 2005), crop transpiration and soil evaporation were evaluated separately on a daily basis, and concentrations of NO3−, PO43−, K+, Na+, Ca2+, Mg2+ and Cl− ions in the Yellow River water, irrigation water, ground water, soil of the root zone and xylem sap of the crop were analyzed.The crop transpiration accounted for 83.4% of the evapotranspiration during the crop development stage. All ions except for Na+ were highly concentrated in the xylem sap due to the active and selective uptake of nutrients by roots. In particular, extremely high concentrations of the major essential nutrients were found in the nighttime stem exudate, while these concentrations in the river water, the irrigation water, the ground water and the root-zone soil were lower. On the other hand, Na+, which is not the essential element for crop growth, was scarcely absorbed by roots and was not highly concentrated in the xylem sap. Consequently, Na+ remained in the ground water and the root-zone soil at higher concentrations. These results indicate that during the growing season, crop transpiration but not soil evaporation induces the most significant driving force for mass flow (capillary rise) transporting the ground water toward the rhizosphere, where the dynamics of ion balance largely depends on the active and selective nutrient uptake by roots.
Bibliography:http://dx.doi.org/10.2478/s11756-006-0172-z
ISSN:1336-9563
0006-3088
1336-9563
DOI:10.2478/s11756-006-0172-z