Coffee (Coffea canephora var robusta) is grown in Southwestern Togo under shade of native Albizia adianthifolia as a low input cropping system. However, there is no information on carbon and nutrient cycling in these shaded coffee systems. Hence, a study was conducted in a mature coffee plantation in Southwestern Togo to determine carbon and nutrient stocks in shaded versus opengrown coffee systems. Biomass of Albizia trees was predicted by allometry, whereas biomass of coffee bushes was estimated through destructive sampling. Above-and belowground biomass estimates were respectively, 140 Mg ha À1 and 32 Mg ha À1 in the coffee-Albizia association, and 29.7 Mg ha À1 and 18.7 Mg ha À1 in the open-grown system. Albizia trees contributed 87% of total aboveground biomass and 55% of total root biomass in the shaded coffee system. Individual coffee bushes consistently had higher biomass in the open-grown than in the shaded coffee system. Total C stock was 81 Mg ha À1 in the shaded coffee system and only 22.9 Mg ha À1 for coffee grown in the open. Apart from P and Mg, considerable amounts of major nutrients were stored in the shade tree biomass in non-easily recyclable fractions. Plant tissues in the shaded coffee system had higher N concentration, suggesting possible N fixation. Given the potential for competition between the shade trees and coffee for nutrients, particularly in low soil fertility conditions, it is suggested that the shade trees be periodically pruned in order to increase organic matter addition and nutrient return to the soil.
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26The corresponding optimal NPK supply ratios are 6.0 -1.0 -4.2 and 5.3 -1.0 -4.2. Nutrient 27 use efficiencies decreased above yields of 77-93% of the maximum. Evaluation of the 28 performance of blanket fertiliser rates recommended by national research services for cassava 29 production resulted in average benefit:cost ratios of 2.4±0.9, which will be unattractive to 30 many farmers compared to 3.8±1.1 for the balanced fertiliser rates. The indigenous soil supply 31 of nutrients revealed that, at balanced nutrition, K was the most limiting nutrient to achieve 32 storage roots yields up to 8 Mg dry matter ha -1 at most sites, whereas N and P were needed at 33 greater yields. Dry weight of storage roots measured on the control plots in our researcher 34 managed experiment ranged from 5.6 to 12.2 Mg ha -1 , and were larger than the average
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