Using Clinoptilolite Zeolite to Conserve Water in Agriculture ~ A Field Application
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Transcript of Using Clinoptilolite Zeolite to Conserve Water in Agriculture ~ A Field Application
USING CLINOPTILOLITE ZEOLITE TO CONSERVE WATER IN AGRICULTURE ~ A FIELD APPLICATION
By: Bridgette Quintero and Robert Romero, Undergraduate Research Assistantship (URA) ProgramMentor: Dr. A. Salim Bawazir, Associate Professor of Civil Engineering, New Mexico State University
NEW MEXICO AMPALLIANCE FOR MINORITY PARTICIPATION
Overview Project Description Objective Hypothesis Zeolite as a Material Location Project Methodology Results/Conclusion References and Acknowledgements
Project Overview Sandy Soils in Mesilla Valley Farmers Irrigate more often Conserve Water Zeolite Ratios of Zeolite and Sandy Soil Young Pecan Trees Soil Moisture Monitored
Figure 1 : Zeolite Structure
Objectives To determine if zeolite is a good amendment to
the agricultural sandy soils of Las Cruces, New Mexico in an effort to conserve water.
To determine the minimum mixed ratio of zeolite-soil mixture.
Hypothesis Zeolite/soil mixture will reduce
evaporation losses, reduce infiltration rate and store water in the plant root zone for longer periods than the agricultural sandy soils of Las Cruces, New Mexico
Zeolite as a Material Zeolite of clinoptilolite type is a naturally occurring mineral
that is mined near Winston, New Mexico and has the following characteristics: It is a volcanogenic sedimentary mineral composed of primarily
hydrated alumino silicates Breck, D.W. (1974). - It carries a negative charge which is balanced by freely moving
cations (positive charges), It has an open framework with a network of pores giving it a large
surface area for trapping and exchanging valuable nutrients, It is highly resistance to extreme temperatures, (thermally stable to
800 oC for certain synthetic types; Homes, 1994) It holds nutrients in the root zone for plants to use when needed, It has a lattice structure which makes it suitable for agricultural
applications
Location
Mesilla Valley, Las Cruces
The experiment was setup in the field located in the Mesilla Valley, NM (32°27’N,106°53’W).
A total of sixteen young pecan trees were planted and the soil moisture in the root zone is currently being monitored.
Project Methodology Thirty-two 3 ft3 holes were dug 7 ½ ft apart, aligned in 4 rows of 8. Which
are 30 ft apart. Mixtures if zeolite sandy soil where added to the holes, 100% soil was
added in the first row of 8 holes, 20% zeolite-80% soil added to the second row, 40%-60% added to the third row, and 100% zeolite was added to the fourth row of 8 holes.
Soil/Zeolite Tree No-Tree100/0 A1-A4 Z1-Z480/20 B1-B4 Y1-Y460/40 C1-C4 X1-X40/100 D1-D4 W1-W4
Project Methodology Drip system was installed for each row to control
the irrigation of trees and holes. Sensors were calibrated for each sample of zeolite
and soil mixture in a soil’s lab CR-1000 data logger was programmed for a
decagon EC-20
Project Methodology The mixtures were allowed to settle for some time
before the actual monitoring of the soil moisture depletion begins.
Pecan tree that were monitored were irrigated by controlled volumes of water ( 30 gallons) weekly.
Grow tubes where added to protect the plants from frost and wildlife.
Data was collected at a rate of 1 sample per minute and averaged every 5-minutes and analyzed once a week.
Figure 4: Example of grow tube
Results
Figure 1:100% Zeolite100% Soil
Figure 2: 20% Zeolite100% Soil
Figure 3: 40% Zeolite100% Soil
Conclusion Minimum average for 100% Zeolite was roughly 23 %
moisture content.
Minimum average for 40% Zeolite & 60% soil was roughly 14% moisture content.
Minimum average for 20% Zeolite & 80% soil was roughly 16% moisture content.
Minimum average for 100% Soil was roughly 12% moisture content.
The final results are pending upon further data collection during the growing season of 2009.
References and Acknowledgements Breck, D.W. (1974). Zeolite Molecular Sieves, Structure, Chemistry and
Use. New York, J. Wiley: 771
Holmes, D.A. (1994). Zeolites: in Industrial Minerals and Rocks, 6th edition, D.D. Carr, Senior Editor, Society for Mining, Metallurgy and Exploration, Inc., Littleton, Colorado: 1129-1158
New Mexico Alliance for Minority Participation Staff, National Science Foundation (HRD #0331446), Jeanne Garland, Dr. Jacquez for the opportunity to participate in the program, Dr. A. Salim Bawazir, Juan Solis, Dung Tri Tran, and other graduate students.
Questions