Growth, Water Relation, Yield and Crop Quality of Arabica Coffee in Response to Water Stress and Deficit Irrigation.
Coffee (Coffea Arabica L.) is the single most important commodity crop that comes after petroleum in the world market. It plays a significant role in the economy of Ethiopia, contributing over 60% of the nation's foreign exchange earnings, 30% of the government's direct revenue, 8% outp...
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| Format: | Thesis |
| Language: | English English |
| Published: |
2006
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| Subjects: | |
| Online Access: | http://psasir.upm.edu.my/id/eprint/6228/1/FP_2006_6.pdf http://psasir.upm.edu.my/id/eprint/6228/ |
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| Summary: | Coffee (Coffea Arabica L.) is the single most important commodity crop that comes
after petroleum in the world market. It plays a significant role in the economy of
Ethiopia, contributing over 60% of the nation's foreign exchange earnings, 30% of the
government's direct revenue, 8% output of the agricultural sector and 4% of the gross
domestic production. In spite of the importance of the crop in the country's economy, its
average national yield is very low primarily because of traditional production
technologies. Apart from hereditary characteristics of the trees, seasonal water stress and
recurrent drought are among the major factors which account for low yields of the crop
in most coffee growing regions of the country. In the present study, attempt was made to
identie water stress tolerant Arabica coffee cultivars and deficit irrigation practices that
could improve growth, yield, quality and water use efficiency of the crop under both
protected environment and field condition in Ethiopia. Both rain shelter and field
experiments were carried out in a randomized complete block design with three
replications in the rain shelter and four replications in the field. In the first rain shelter
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than NDI for coffee production particularly in areas where water is scarce and dry spells
are prolonged. On the other hand, the effect of supplemental deficit irrigation on plant
water relations, crop yield and quality was studied in the field using young coffee stands
of three cultivars (F-59, 74110 and 75227). Two irrigation treatments, namely,
supplemental full irrigation (SFI) and supplemental deficit irrigation (SDI), applied in
the conventional way, were compared against rain fed (RF) control. SF1 consistently
increased soil moisture content, leaf RWC and g, during the dry period, but there was no
difference between the treatments in the main wet season. Besides, SF1 significantly
increased coffee yield, but the difference between SF1 and SDI was not significant and
yet SDI had 21 - 24% yield advantage over the RF treatment. On the other hand, overall
quality of coffee beans was considerably increased by SDI and RF treatments.
Therefore, SDI seems to be more effective than SF1 and it can be used as an option next
to PRD for coffee production in drier areas.
study, twenty four known cultivars, which are indigenous to the country, were subjected
to a soil drying treatment to identify those tolerant genotypes. Variations among the
cultivars for mean stress scores, rate of recovery from drought, root to shoot ratio,
concentration of inorganic solutes (K, Ca and Mg) in leaves, specific leaf area and
survival rate showed that some of the genotypes, such as 741 10, 741 12 and 8/85, were
less sensitive to water stress at seedling stage. On the other hand, in an experiment
where three irrigation regimes (well watering, WW, normal deficit irrigation, NDI, and
partial root zone drying, PRD) were studied on cultivar F-59 grown in a rain shelter, it
was found that NDI and PRD reduced shoot growth, total dry matter production, dry
weights of leaves, stem and roots, leaf relative water content (RWC) and stomata1
conductance (g,), but increased root to shoot ratio and irrigation water use efficiency
(IWUE) of coffee seedlings. Therefore, it was concluded that PRD is an effective deficit
irrigation practice to increase I'WUE and decrease irrigation water requirement by 50%
without substantial adverse effects on plant growth and development, and it could be
practically advantageous in coffee nurseries especially in areas of water scarcity and
prolonged drought periods. The same study was carried out in the field to determine the
effect of PRD on plant water relations and crop yield and quality of Arabica coffee.
Results of the field experiment also indicated that leaf RWC, g,, h i t growth rate and
some yield components were reduced by both PRD and NDI. However, the difference
between WW and PRD was not significant for crop yield and yet PRD resulted in over
41% more IWUE than the WW treatment, reduced the amount of irrigation water by
50% and considerably improved both raw and liquor quality of coffee beans. Hence, it
was concluded that PRD can be a feasible irrigation strategy, which can save irrigation
water, increase IWUE and maintain crop yield, and it appears to be more advantageous |
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