Friday, May 24, 2019

Growth and Development of Brassica rapa Plants Essay

Intraspecific controversy is a widely regarded principle mechanism in the structuring of communities and has an influence in the spatial sprinkling of organisms much(prenominal) as typesets. Knowing this, the authors designed an experiment to observe and understand the effect of intraspecific competition using Brassica rapa, operating under the precept that when the plant is grown in an limited topographic point environment, the plants will grow quickly and will be able to baffle offspring in a meteoric much efficient way.Utilizing a dickens-treatment sort set-up where B. rapa plants were grown in either a low dumbness set-up (2 seeds only) or high slow-wittedness set-up (10 seeds), the researchers found that a low meanness set-up had several advantages over the high dumbness set up, with plants having higher hold up survival and flower production. Thse findings supported the idea that limited space will affect the high density environment, allowing the seeds grown in a low density environment to flourish more effectively. Effect of Intraspecific competition on Growth and Development of Brassica rapa Plants IntroductionIntraspecific competition is a widely regarded principle mechanism in the structuring of communities (Abramsky and Sellah 1982). In detail, intraspecific competition is known to occur between members of the similar species competing for shared, limiting resources such as food and space. Further more, intraspecific competition has an influence in the spatial dispersion of organisms such as plants (Mcginley 2008). Scientist have longed tried to determine whether competition exists between or within species and what effect it has on its surviv capability and reproduction rate.It is a known fact that plants that are grown in high density areas only have one choice allocate the limited resources and grow rapidly (Siemens,et al. 2002) lest the organism come apart to thrive and survive. It then becomes apparent that information gained from this area of study will have significant applications outside of the field of botany. In a time where reforestation and rehabilitation is a major issue, knowledge on intraspecific competition can help shape the success of efforts on plant-life conservation.To further study this mechanism, the researchers develop an experimental set-up that evaluated intraspecific competition among plants. Using space as the experiments limiting resource, species of B. rapa were cultivated in two treatment groups and observed for the effect of intraspecific competition. Space is often viewed as a major limiting resource for sessile organisms since taking away a nonhers space eliminates its ability to acquire food (Vance, 1984, p. 1354).The plant specie B. rapa was selected as the treatment model of choice since the specie is known for being an ideal experimental subject ascribable to their small size, ease of cultivation and short life cycle. The main objective of the experiment was to obser ve and understand the effect of intraspecific competition on B. rapa receivable to limited space. The experiment operated under the main hypothesis that when the Brassica rappa plant is grown in an environment with limited space, the plants grow quickly and is able to produce offspring in a faster more efficient way.On the other hand, the null hypothesis for this experiment was that the limited space will not play a role in the growth and reproduction of B. rappa. Lastly, the alternative hypothesis for the experiment was that limited space will affect the high density environment, allowing the seeds grown in a low density environment to flourish. Materials and Methods For the experimental set-up, two treatment groups were created. One group was classified as Low density and was comprised of two Brassica rappa seeds while the second group was classified as High density and consisted of 10 Brassica rappa seeds.Controls determined for the experiment included decrease source, temperat ure and water while the considered variables included the biomass of the seeds, the regard as biomass of the seeds, the number of pods and the number of flowers each plant produced. The experiment was conducted over a six-week period where data collection put down the number of survivors per treatment group. The number of pods, flowers and pollinated flowers were also recorded. In the last two weeks of the experiment, treatment groups were harvested and mean elevation was recorded.The plants were then dried and the roots and forage somatic weighed to determine biomass. Seeds were then separated. info gathered from the experiment were treated using t-tests and Oneway Analysis utilizing treatment bureau and standard deviations. Results After cultivation of B. rapa in the two treatment groups, the researchers determined the following data using Oneway analysis and t-tests.Results showed that the mean probability or survival per treatment were 0. 839683 SD 0. 267817 in the low den sity set-up and 0. 732283 SD 0. 262515 in the high density set-up (Appendix A) revealing a slight survival advantage in favor of the low density set-up. On the other hand, the mean height per treatment were 13. 5956 SD 5. 33474 and 13. 1550 SD 6. 63392 for the low density and high density set-up respectively (Appendix B) indicating that plants in both set-up flourished equally in terms of height most likely collectible to non-competition for light source which was a controlled variable.The mean number of flowers per treatment group was 2. 61684 SD3. 55681 for the low density set-up and 1. 56520 SD 1. 72971 for the high density set-up (Appendix C) indicating that the low density treatment group achieved higher performance indicated by being able to reach the reproductive stage more effectively. These values are closely mirrored by the mean number of pods per treatment group which showed that the low density set-up had a mean of 2. 04356 SD 2. 55931 while the high density set-up had a mean of 1. 68122 SD 2. 14201 (Appendix D) again reflecting a more successful reproductive course (successful pollination).Additionally, the mean values obtained for the number of seeds per plant were 5. 18258 SD 8. 53005 for the low density set-up and 3. 65687 SD 4. 70787 for the high density set-up (Appendix E) further solidifying the idea that plants in the low density group were able to flourish much better compared to the high density group. In terms of mean seed biomass, the low density set-up had an average mean of 0. 005624 SD 0. 011844 which was lower in comparison to the high-density setup which had a value of 0. 006139 SD 0. 014367 (Appendix F).The mean root biomass obtained were 0. 028744 SD 0. 099737 for the low density set-up while the high density set-up had an obtained mean value of 0. 021542 SD 0. 037141 (Appendix G). Lastly, the mean biomass per treatment group values obtained for the experiment were 0. 063467 SD 0. 097980 for the low density set-up and 0. 069773 SD 0. 110127 for the high density set-up (Appendix H). Biomass is supposedly a good footmark of fitness or how well the plant flourished since the amount of living tissue is said to be regulated by resource availability, i. e. space (Franco & Kelly, 1998, p. 7830). Discussion Data gathered from the two treatment groups indicated that the low density group demonstrated certain advantages over the high density group. In both the areas of surviving prop t=4. 555, DF=503. 608, p=. 0001 and mean plant height t=0. 814, DF=471. 852, p=0. 416, the low density group scored higher on average compared to the high density treatment group.The same can be said in the measures for mean number of flowers, pod and seeds where the low density treatment group also had higher average means in comparison to the high density group. These findings supported the idea that plants in the low density group flourished more effectively in comparison to plants in the high density group.Additionally, a significa nt difference in the number of flowers produced t=4. 168, DF= 352. 016, p=

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