N. V. Kamalam scite author profile

Root competition for phosphorus between the tree and herbaceous components of silvopastoral systems in Kerala, IndiaS u m a n Jacob G e o r g e I , B. M o h a n K u m a r 1, RA. W a h i d z and N.V. K a m a l a m z Abstract Root competition in polyculture systems involving combinations of four tree species and four grass species was evaluated based on 32p recovery by each species in mixed and sole crop situations. The tree species were: Leucaena leucocephala, Casuarina equisetifolia, Acacia auriculiformis and Ailanthus triphysa, and the grass species were: Pennisetum purpureum (hybrid napier), Brachiaria ruziziensis (congo signal), Panicum maximum (guinea grass) and Zea mexicana (teosinte). Four lateral distance (25 and 50 cm) and depth (15 and 50 cm) treatments were included in the study to characterize the relative fine root distribution of trees. Absorption of 32p was monitored through radioassay of leaves. Regardless of the species, 32p uptake from 50 cm soil depth was lower than that of 15 cm depth. Absorption of 32p from 50 cm lateral distance was also less than that of 25 cm distance in Acacia and Casuarina. Grass species in sole crop situations absorbed more 3Zp than in mixed systems. None of the grass species when grown in association with tree components affected the absorption of 32p by trees. All grass species exerted a complementary effect on 32p absorption by Casuarina. Leucaena also benefited in the same way when grown in association with congo signal and/or teosinte. Of the tree species, Acacia and Leucaena adversely affected the 32p uptake by grass species.

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Rare Earth Element Fluxes in Diverse Soils and Their Absorption by Coconut Palm

Wahid

Kamalam

Prabhu

et al. 2003

Journal of Plant Nutrition

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Effect of rare earth elements on growth and nutrition of coconut palm and root competition for these elements between the palm andcalotropis gigantea

Wahid

Valiathan

Kamalam

et al. 2000

Journal of Plant Nutrition

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Absorption of rare earth elements (REEs) namely lanthanum (La), cerium (Ce), praseodymium (Pr), and neodymium (Nd) by coconut, competition between coconut and Calotropis gigantea L. for these elements in mixed culture and the effects of the REEs on growth and nutrition of the palm were studied in a pot culture. At a low rate of application, REEs promoted root growth in coconut, but at a higher level, absorption of phosphorus (P) and zinc (Zn) by the palm was reduced significantly. Absorption of REEs by the palm tended to increase with increasing 329

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Determination of phosphorus-32 in wet-digested plant leaves by Cerenkov counting

Wahid¹,

Kamalam²,

Sankar³

1985

The International Journal of Applied Radiation and Isotopes

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N. V. Kamalam

Reductive dissolution of crystalline and amorphous Fe(III) oxides by microorganisms in submerged soil

Root competition for phosphorus between the tree and herbaceous components of silvopastoral systems in Kerala, India

Rare Earth Element Fluxes in Diverse Soils and Their Absorption by Coconut Palm

Effect of rare earth elements on growth and nutrition of coconut palm and root competition for these elements between the palm andcalotropis gigantea

Determination of phosphorus-32 in wet-digested plant leaves by Cerenkov counting

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