Table 1: Types of Phyto-periphyton recorded from different natural substrates immersed in seawater earthen lined pond for different periods
Figure 1(a, b): Phyto-periphyton composition for different natural substrates. a) Phyto-Periphyton growth on split bamboo pole; b) Phyto-Periphyton growth on Coconut coir
Table 2: Periphyton biomass in terms of dry matter (mg cm-2) of different substrates immersed in seawater earthen lined pond for different periods. Figures are means of samples from three depths, two ponds and three sampling dates (n = 18)
Figure 2: Periphyton Biomass at various depth for different natural substrates during the study
Table 3: “T” test analysis of the data relating to periphyton biomass for different natural substrates recorded at different depths
Figure 3: Periphyton Biomass for different natural substrates during the study
Table 4: Physico-chemical parameters of seawater in earthen lined pond during experimental period
Table 1: Types of Phyto-periphyton recorded from different natural substrates immersed in seawater earthen lined pond for different periods
Figure 1(a, b): Phyto-periphyton composition for different natural substrates. a) Phyto-Periphyton growth on split bamboo pole; b) Phyto-Periphyton growth on Coconut coir
Table 2: Periphyton biomass in terms of dry matter (mg cm-2) of different substrates immersed in seawater earthen lined pond for different periods. Figures are means of samples from three depths, two ponds and three sampling dates (n = 18)
Figure 2: Periphyton Biomass at various depth for different natural substrates during the study
Table 3: “T” test analysis of the data relating to periphyton biomass for different natural substrates recorded at different depths
Figure 3: Periphyton Biomass for different natural substrates during the study
Table 4: Physico-chemical parameters of seawater in earthen lined pond during experimental period
Table 1: Types of Phyto-periphyton recorded from different natural substrates immersed in seawater earthen lined pond for different periods
Figure 1(a, b): Phyto-periphyton composition for different natural substrates. a) Phyto-Periphyton growth on split bamboo pole; b) Phyto-Periphyton growth on Coconut coir
Table 2: Periphyton biomass in terms of dry matter (mg cm-2) of different substrates immersed in seawater earthen lined pond for different periods. Figures are means of samples from three depths, two ponds and three sampling dates (n = 18)
Figure 2: Periphyton Biomass at various depth for different natural substrates during the study
Table 3: “T” test analysis of the data relating to periphyton biomass for different natural substrates recorded at different depths
Figure 3: Periphyton Biomass for different natural substrates during the study
Table 4: Physico-chemical parameters of seawater in earthen lined pond during experimental period
Table 1: Types of Phyto-periphyton recorded from different natural substrates immersed in seawater earthen lined pond for different periods
Figure 1(a, b): Phyto-periphyton composition for different natural substrates. a) Phyto-Periphyton growth on split bamboo pole; b) Phyto-Periphyton growth on Coconut coir
Table 2: Periphyton biomass in terms of dry matter (mg cm-2) of different substrates immersed in seawater earthen lined pond for different periods. Figures are means of samples from three depths, two ponds and three sampling dates (n = 18)
Figure 2: Periphyton Biomass at various depth for different natural substrates during the study
Table 3: “T” test analysis of the data relating to periphyton biomass for different natural substrates recorded at different depths
Figure 3: Periphyton Biomass for different natural substrates during the study
Table 4: Physico-chemical parameters of seawater in earthen lined pond during experimental period
Table 1: Types of Phyto-periphyton recorded from different natural substrates immersed in seawater earthen lined pond for different periods
Figure 1(a, b): Phyto-periphyton composition for different natural substrates. a) Phyto-Periphyton growth on split bamboo pole; b) Phyto-Periphyton growth on Coconut coir
Table 2: Periphyton biomass in terms of dry matter (mg cm-2) of different substrates immersed in seawater earthen lined pond for different periods. Figures are means of samples from three depths, two ponds and three sampling dates (n = 18)
Figure 2: Periphyton Biomass at various depth for different natural substrates during the study
Table 3: “T” test analysis of the data relating to periphyton biomass for different natural substrates recorded at different depths
Figure 3: Periphyton Biomass for different natural substrates during the study
Table 4: Physico-chemical parameters of seawater in earthen lined pond during experimental period
Table 1: Types of Phyto-periphyton recorded from different natural substrates immersed in seawater earthen lined pond for different periods
Figure 1(a, b): Phyto-periphyton composition for different natural substrates. a) Phyto-Periphyton growth on split bamboo pole; b) Phyto-Periphyton growth on Coconut coir
Table 2: Periphyton biomass in terms of dry matter (mg cm-2) of different substrates immersed in seawater earthen lined pond for different periods. Figures are means of samples from three depths, two ponds and three sampling dates (n = 18)
Figure 2: Periphyton Biomass at various depth for different natural substrates during the study
Table 3: “T” test analysis of the data relating to periphyton biomass for different natural substrates recorded at different depths
Figure 3: Periphyton Biomass for different natural substrates during the study
Table 4: Physico-chemical parameters of seawater in earthen lined pond during experimental period
Table 1: Types of Phyto-periphyton recorded from different natural substrates immersed in seawater earthen lined pond for different periods
Figure 1(a, b): Phyto-periphyton composition for different natural substrates. a) Phyto-Periphyton growth on split bamboo pole; b) Phyto-Periphyton growth on Coconut coir
Table 2: Periphyton biomass in terms of dry matter (mg cm-2) of different substrates immersed in seawater earthen lined pond for different periods. Figures are means of samples from three depths, two ponds and three sampling dates (n = 18)
Figure 2: Periphyton Biomass at various depth for different natural substrates during the study
Table 3: “T” test analysis of the data relating to periphyton biomass for different natural substrates recorded at different depths
Figure 3: Periphyton Biomass for different natural substrates during the study
Table 4: Physico-chemical parameters of seawater in earthen lined pond during experimental period
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