Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils
Scirpus grossus L. is a principal rhizomatous weed in the rice fields and wasteland in Malaysia. This study describes to use fractal ramets to create probability distributions fractal of ramets system and growth patterns with fertilizer under different soil types. The NPK fertilizer applicati...
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my-unisza-ir.54402022-09-13T05:15:43Z http://eprints.unisza.edu.my/5440/ Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils Mohammad Moneruzzaman, Khandaker Ali, Majrashi Baki, Bakar Q Science (General) S Agriculture (General) Scirpus grossus L. is a principal rhizomatous weed in the rice fields and wasteland in Malaysia. This study describes to use fractal ramets to create probability distributions fractal of ramets system and growth patterns with fertilizer under different soil types. The NPK fertilizer application at 100:30:30 ha-1 resulted in more robust aerial plant growth with ca. 253.5 ramets m-2(mean dry aerial bioamass of 23.2 gplant-1) compared with 235.6 ramets m-2 (16.3 g plant-1) in unfertilized peat soils 24 weeks after planting of the mother plant. The parallel figures for plants growing on paddy soils of the Jawa series were ca. 97.08 ramets m-1 (12.19 g plant-1)(fertilized paddy soils) and 83.67 ramets m-1 (10.89 g plant-1)(unfertilized paddy soils) 24 weeks after planting of the mother plant. Mean ramets mortality was significantly higher in unfertilized paddy soils at 121.3 ramets m-2, while in the fertilized paddy soils this was only 34.7 ramets m-2 resulting respective net populations of ca. 218.8 ramets m -2 and 114.3 ramets m-2 in fertilized and unfertilized plots. In paddy soils mean ramets mortality in unfertilized paddy soils was ca. 8.58 ramets m-2 while this was only ca. 5.67 ramets m-2, leading to the respective resultant net populations of 91.41m-2 and 75.09 ramets m-2. The time- and space-mediated clonal growth of S. grossus did not register any significant preferential directionality and dispersion of aerial plants of fertilizer application or soil types, but rather displaying opportunistic resource capture by aerial module. In this paper we used ANOVA analysis and fractal dimension gray-level. 2014-04 Article PeerReviewed image en http://eprints.unisza.edu.my/5440/1/FH02-FPBSM-14-00915.jpg image en http://eprints.unisza.edu.my/5440/2/FH02-FPBSM-14-00916.jpg Mohammad Moneruzzaman, Khandaker and Ali, Majrashi and Baki, Bakar (2014) Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils. Research Journal of Biotechnology, 9 (4). pp. 48-55. ISSN 22784535 |
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Q Science (General) S Agriculture (General) Mohammad Moneruzzaman, Khandaker Ali, Majrashi Baki, Bakar Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils |
| description |
Scirpus grossus L. is a principal rhizomatous weed in the rice fields and wasteland in Malaysia. This study describes to use fractal ramets to create probability distributions fractal of ramets system and growth patterns with fertilizer under different soil types. The NPK fertilizer application at 100:30:30 ha-1 resulted in more robust aerial plant growth with ca. 253.5 ramets m-2(mean dry aerial bioamass of 23.2 gplant-1) compared with 235.6 ramets m-2 (16.3 g plant-1) in unfertilized peat soils 24 weeks after planting of the mother plant. The parallel figures for plants growing on paddy soils of the Jawa series were ca. 97.08 ramets m-1 (12.19 g plant-1)(fertilized paddy soils) and 83.67 ramets m-1 (10.89 g plant-1)(unfertilized paddy soils) 24 weeks after planting of the mother plant. Mean ramets mortality was significantly higher in unfertilized paddy soils at 121.3 ramets m-2, while in the fertilized paddy soils this was only 34.7 ramets m-2 resulting respective net populations of ca. 218.8 ramets m -2 and 114.3 ramets m-2 in fertilized and unfertilized plots. In paddy soils mean ramets mortality in unfertilized paddy soils was ca. 8.58 ramets m-2 while this was only ca. 5.67 ramets m-2, leading to the respective resultant net populations of 91.41m-2 and 75.09 ramets m-2. The time- and space-mediated clonal growth of S. grossus did not register any significant preferential directionality and dispersion of aerial plants of fertilizer application or soil types, but rather displaying opportunistic resource capture by aerial module. In this paper we used ANOVA analysis and fractal dimension gray-level. |
| format |
Article |
| author |
Mohammad Moneruzzaman, Khandaker Ali, Majrashi Baki, Bakar |
| author_facet |
Mohammad Moneruzzaman, Khandaker Ali, Majrashi Baki, Bakar |
| author_sort |
Mohammad Moneruzzaman, Khandaker |
| title |
Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils |
| title_short |
Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils |
| title_full |
Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils |
| title_fullStr |
Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils |
| title_full_unstemmed |
Modeling of biomass ramets growth patterns using fractal topography analysis of Scirpus grossus L. on peat and paddy soils |
| title_sort |
modeling of biomass ramets growth patterns using fractal topography analysis of scirpus grossus l. on peat and paddy soils |
| publishDate |
2014 |
| url |
http://eprints.unisza.edu.my/5440/1/FH02-FPBSM-14-00915.jpg http://eprints.unisza.edu.my/5440/2/FH02-FPBSM-14-00916.jpg http://eprints.unisza.edu.my/5440/ |
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