ABSTRACT
A 7x 9
factorial experiment in randomized complete block design with three
replications was used to study the effect ol time (January — July, 2005) on the
mineral contents (%) leaves and twigs of the following nine forest tree
species, Nauclea diderrichii, Pentaclethra macrophylla, Pterocarpus
santalinioides, Trectdia africana, Piptadiniastrum africanum, Brachystegia
eurycoma, Leucaena leucocephala, Dactyladenia barteri and Milicia excelsa,
within the relict forest at Michael Okpara University ol Agriculture, Umudike
Nigeria. Nauclea diderrichii and L. leucocephala, had similar N contents in
their leaves that were significantly higher than those of the other species.
The similar N contents in leaves of the species in January and July, 2005 were
higher (P< 0.05) than those in February - June, 2005. Leucaena
leucocephala's leaves gave significantly the highest N contents. Leaves of P.
macrophylla and N. diderrichii had similar (P< 0.05) P contents which were
significantly greater than those of the other seven species. June, 2005 gave the
highest (P< 0.05) P contents in the leaves of the nine tree species. Pterocarpus
santalinioides had significantly higher K contents in its leaves than the other
eight species. March and April, 2005 gave significantly the highest and least K
contents in the leaves of the forest plant species. Leaves of P. africanium in
July, 2005 had the highest (P<0.05) K contents than those of the other tree
species, over the study period. Leaves of M. excelsa and P. macrophylla had
statistically similar Na contents which were significantly higher than those of
the other species. Dactyladenia barteri gave the least (P< 0.05) Na
contents. The Na contents of he tree species in March and April, 2005 were
significantly lower than those of the other months. Leaves of P. macrophylla
and P. santalinioides had statistically similar Ca contents that were higher
(P< 0.05) than those of the other species. In June and July, 2005, leaves of
the nine species had higher (P< 0.05) Ca contents than in February - May,
2005. In June, 2005, leaves of P. macrophylla gave the highest Ca contents
while in April, N. diderrichii had the least Ca result. Leaves ofM. excelsa and
T. africana had similar Mg contents that were higher (P< 0.05) than those of
the other species. The highest (P< 0.05) Mg contents in the leaves of
the nine species were obtained in May and July, 2005 while March 2005 had the
least Mg value. Leaves of B. eurycoma gave significantly the highest Mg content
in April. 2005. M .excelsa and B. eurycoma, with similar results, had
statistically the highest N contents in their twigs. In April 2005, the N contents
in the twigs ot the nine species were significantly higher than those
ofJanuary, February, March - July, 2005. In April, 2006, P. macrophylla had the
highest (P< 0.05) N contents in its twigs. The statistically similar P
contents in twigs of P. macrophylla and L. leucocephala were significantly
higher than those ofthe other species. March and April. 2005 had similar P
contents in twig of the nine species which were higher (P< 0.05) than those
of the other study periods. The similar K contents of twigs of L. Icucoccphala
and T. africana, were statistically higher than those of the other species.
Twigs ofJanuary and April, 2005 had similar K values which were significantly
higher than those of the other study periods. The K contents of twigs of the
nine species ncreased from January - May, 2005, decreased between May and
June, 2005 and, increased again in July, 2005. Twigs of L. leucocephala and P.
santalinioides gave significantly the highest and least Na contents. In January
and July, 2005, twigs of L. Icucoccphala had significantly the highest Na
contents. Twigs ofP. macrophylla had the highest (P < 0.05) Ca contents.
February and June, 2005 had significantly the highest and least Ca contents in
the twigs of the tree species. Twigs of Leucaena leucocephala and B. eurycoma
had statistically the highest and least Mg contents. The similar (P < 0.05)
Mg contents in twigs of the nine species in February and July, 2005 were
significantly higher than those ofthe other study periods
ALOZIE, A (2023). Nutrient Concentrations Of Leaves And Twigs Of Some Tree Species In The Rainforest Of South Eastern Nigeria:-Alozie, Nkeiruka D.. Mouau.afribary.org: Retrieved Dec 22, 2024, from https://repository.mouau.edu.ng/work/view/nutrient-concentrations-of-leaves-and-twigs-of-some-tree-species-in-the-rainforest-of-south-eastern-nigeria-alozie-nkeiruka-d-7-2
ALOZIE, ALOZIE. "Nutrient Concentrations Of Leaves And Twigs Of Some Tree Species In The Rainforest Of South Eastern Nigeria:-Alozie, Nkeiruka D." Mouau.afribary.org. Mouau.afribary.org, 29 Nov. 2023, https://repository.mouau.edu.ng/work/view/nutrient-concentrations-of-leaves-and-twigs-of-some-tree-species-in-the-rainforest-of-south-eastern-nigeria-alozie-nkeiruka-d-7-2. Accessed 22 Dec. 2024.
ALOZIE, ALOZIE. "Nutrient Concentrations Of Leaves And Twigs Of Some Tree Species In The Rainforest Of South Eastern Nigeria:-Alozie, Nkeiruka D.". Mouau.afribary.org, Mouau.afribary.org, 29 Nov. 2023. Web. 22 Dec. 2024. < https://repository.mouau.edu.ng/work/view/nutrient-concentrations-of-leaves-and-twigs-of-some-tree-species-in-the-rainforest-of-south-eastern-nigeria-alozie-nkeiruka-d-7-2 >.
ALOZIE, ALOZIE. "Nutrient Concentrations Of Leaves And Twigs Of Some Tree Species In The Rainforest Of South Eastern Nigeria:-Alozie, Nkeiruka D." Mouau.afribary.org (2023). Accessed 22 Dec. 2024. https://repository.mouau.edu.ng/work/view/nutrient-concentrations-of-leaves-and-twigs-of-some-tree-species-in-the-rainforest-of-south-eastern-nigeria-alozie-nkeiruka-d-7-2