Allometric growth relationships of East Africa highland bananas (Musa spp., AAA-EAHB) cv. Kisansa and Mbwazirume
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Association of Applied Biologists
Abstract
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Highland bananas are an important staple food in East Africa, but there is little information on their physiology and growth patterns. This makes it difficult to identify opportunities for yield improvement. We studied allometric relationships by evaluating different phenological stages of highland banana growth for use in growth assessment, understanding banana crop physiology and yield prediction. Pared corms of uniform size (cv. Kisansa) were planted in a pest free field in Kawanda (central Uganda), supplied with fertilizers and irrigated during dry periods. In addition, tissue-cultured plants (cv. Kisansa) were planted in an adjacent field and in Ntungamo (southwest Uganda), with various nutrient addition treatments (of N, P, K, Mg, S, Zn, B, and Mo). Plant height, girth at base, number of functional leaves, and phenological stages were monitored monthly. Destructive sampling allowed derivation of allometric relationships to describe leaf area and biomass distribution in plants throughout the growth cycle. Individual leaf area was estimated as LA (m2) = length (m) x maximum lamina width (m) x 0.68. Total plant leaf area (TLA) was estimated as the product of the measured middle leaf area (MLA) and the number of functional leaves. Middle leaf area was estimated as MLA (m2) = −0.404 + 0.381 height (m) + 0.411 girth (m). A light extinction coefficient (k = 0.7) was estimated from photosynthetically active radiation (PAR) measurements in a 1.0 m grid over the entire day. The dominant dry matter (DM) sinks changed from leaves at 1118 οC d (47% of total DM) and 1518 οC d (46% of total DM), to the stem at 2125 οC d (43% of total DM) and 3383 οC d (58% of total DM), and finally to the bunch at harvest (4326 οC d) with 53% of total DM. The allometric relationship between above-ground biomass (AGB in kg DM) and girth (cm) during the vegetative phase followed a power function, AGB = 0.0001 (girth) 2.35 (R2 = 0.99), but followed exponential functions at flowering, AGB = 0.325 e0.036 (girth) (R2 = 0.79) and at harvest, AGB = 0.069 e0.068 (girth) (R2 = 0.96). Girth at flowering was a good parameter for predicting yields with R2 = 0.7 (cv. Mbwazirume) and R2 = 0.57 (cv. Kisansa) obtained between actual and predicted bunch weights. This papers shows that allometric relationship can be derived and used to assess biomass production and for developing banana growth models, which can help breeders and agronomists to further exploit the crop’s potential.
Keywords
Girth, Leaf area, Biomass, Radiation interception, Highland bananas, Crop research