SANDY AND CLAY SOIL FERTILITY AFTER APPLICATION OF SOIL CONDITIONER FROM WATER HYACINTH (Eichhornia crassipes [mart.] solms) SHOOTS AND ROOTS

Munifatul Izzati

Abstract

ABSTRACT

Water hyacinth is an aquatic plant that highly problematic. Its fast-growing will chock of many water bodies, including in Rawa Pening Lake. Researchers are trying to find its economic uses. This study is aimed to evaluate the use of water hyacinth shoot and root as a soil conditioner in improving the fertility of sandy and clay soil. We used sandy and clay soil as evaluated and two treatments of soil conditioner, using water hyacinth shoots and root dried powder The water hyacinth biomass taken from Rawa Pening lake was dried under the sun and smashed into powder. The mixed dried powder with sandy or clay soil was prepared in the plastic polybag in the proportion of 1:1. The experiment was using a complete randomized design (CRD). Pure sandy and clay soil without soil conditioner was used as controls. Mixed soil fertility was evaluated for soil organic matter, bacteria population, C: N ratio, and water holding capacity. Results indicated that water hyacinth shoots and roots significantly increased the organic matter and bacteria population in both, sandy and clay soil. The ratio of C: N was reduced significantly. Water holding capacity in sandy soil was significantly increased, while in clay soil was reduced. It is suggested that the addition of water hyacinth shoots and roots as soil conditioners will significantly improve sandy and clay soil fertility. Water hyacinth roots contribute to better soil fertility than its shoots.

KEYWORDS

Keywords: clay, fertility, sandy, soil, water-hyacinth  

Keywords

K Keywords: clay, fertility, sandy, soil, water-hyacinth

Full Text:

PDF

References

References

Abdel-Sabour M. 2010. Water Hyacinth: Available and Renewable Resources. EJEAFche, 9(11):1745 - 1759.

Amooh MK and Bonsu A. 2015. Effects of soil texture and organic matter on the evaporative loss of soil moisture. JOGAE 3(3):152-161.

Barker JE, Hutchens Jr JJ, Luken JO. 2014. Macroinvertebrates associated with water hyacinth roots and a root analog. Freshwater Science 33(1):159-167.

Ben-Noah I. and Friedman SP. 2018. Review and evaluation of root respiration and natural and agricultural processes of soil aeration. Vadose-Zone Journal. 1- 47.

Dwivedi MA and Dwivedi AK. 2018. Valuable Product from Water Hyacinth – Review Paper. IRJET 5(3):838–843.

Ge S, Xu H, Ji M, Jiang Y. 2013. Characteristics of Soil Organic Carbon, Total Nitrogen, and C/N Ratio in Chinese Apple Orchards. Open Journal of Soil Science 3(5):213–217.

Gmach MR, Cherubin MR, Kaiser K, Cerri CEP. 2020. Processes that influence dissolved organic matter in the soil: a review. Soil and Plant Nutrition 77(3):1 - 10.

Gougoulias C, Clark JM, Shaw LJ. 2014.The role of soil microbes in the global carbon cycle: Tracking the below-ground microbial processing of plant-derived carbon for manipulating carbon dynamics in agricultural systems. Journal of the Science of Food and Agriculture, (94):2362-2371.

Haridjaja O, Baskoro DPT, Setianingsih M. 2013. Different Levels of Field Capacity by Alhricks, Free Drainage, and Pressure by Alhricks, Free Drainage, and Pressure Plate Methods at Different Soil Texture and Relation for Sunflower Growth (Helianthus annuus L.). J. Tanah Lingk 15(2):52-59.

Hayat R, Ali S, Amara U, Khalid R, Ahmed I. 2010. Soil beneficial bacteria and their role in plant growth promotion: A review. Annals of Microbiology 60(4):579–598.

Hubbe MA, Ayoub A, Daystar JS, Venditti RA, Pawlak JJ. 2015. Enhanced Absorbent Products Incorporating Cellulose and Its Derivatives: A Review. BioResources 8(4):6556-6629.

Jenifer LY and Hartemink A. 2019. Soil organic carbon in sandy soils: A review. Advances in Agronomy 158:217-310.

John M. 2016. Production of Organic Compost from Water Hyacinth (Eichhornia crassipes [Mart.] Solms) in the Lake Victoria Basin : A Lake Victoria Research Initiative (VicRes). Journal of Agriculture and Allied Sciences 5(2):50–57.

Khatoon H, Solanki P, Narayan M, Tewari L, Rai JPN. 2017. Role of microbes in organic carbon decomposition and maintenance of soil ecosystem. International Journal of Chemical Studies 5(6):1648-1656.

Kiflu A and Beyene S. 2013. Effects of different land-use systems on selected soil properties in South Ethiopia. Journal of Soil Science and Environmental Management. 4(5):100-106.

Lara-Serrano JS, Rutiaga-Quiñones OM, López-Miranda J, Fileto-Pérez HA, Pedraza-Bucio FE, Rico-Cerda JL, Rutiaga-Quiñones JG. 2016. Physicochemical Characterization of Water Hyacinth (Eichhornia crassipes (Mart.) Solms). BioResources 11(3):7214-7223.no, S., utiaga-Quiñones, O., López-Miranda, J. Héctor rez, H.A.,

Libohova ZC. 2018. Reevaluating the effects of soil organic matter and other properties on available water-holding capacity using the National Cooperative Soil Survey Characterization Database. JOURNAL OF SOIL AND WATER CONSERVATION 73(4): 411- 421.

Mengistu AG. 2019. Characterization of the soil pore system in relation to its hydraulic functions in two South African aeolian soil groups. South African Journal of Plant and Soil 36(2):107–116.

Minychl G and Dersseh S A. 2020. Spatial and Temporal Dynamics of Water Hyacinth and Its Linkage with Lake-Level Fluctuation: Lake Tana, Water 12(1435):1-15.

Neira J, Oritz M, Morales L, Acevedo E. 2015. Oxygen diffusion in soils: Understanding the factors and processes needed for modeling. Chilean Journal of Agricultural Research 75:1- 11.

Rahman MM. 2017. Green manure potential of water hyacinth and sewage sludge: The seed germination and seeding growth trials of Albizia Saman. Agricultural & Vet Sci 1(1):18–31.

Rao DA. 2019. Microbiology and Biochemistry of Soil Organic Matter, Carbon Sequestration and Soil Health. Indian Journal of Fertilisers 5(2): 124-138.

Rezaniaa SM. 2016. The efficient role of an aquatic plant (water hyacinth) in treating domestic wastewater in a continuous system. International Journal of Phytoremediation 18(7):679-685.

Sanni KO, and Adesina JM. 2012. Response of water hyacinth manure on growth attributes and yield in Celosia argentea L (Lagos spinach). Journal of Agricultural Technology 8(3):1109–1118.

Sujatha KN, Kavya G, Manasa P, Divya K. 2016. Assessment of Soil Properties to Improve Water Holding Capacity in Soils. .International Research Journal of Engineering and Technology (IRJET) 3(3): 1777–1783.

Su W, Sun Q, Xia M, Wen Z, Yao Z. 2018. The Resource Utilization of Water Hyacinth (Eichhornia crassipes [Mart.] Solms) and Its Challenges. Resources 7(46):1-9.

Tham HT, Man NV, Pauly T. 2013. Fermentation quality of ensiled water hyacinth (Eichhornia crassipes) as affected by additives. Asian-Australasian Journal of Animal Sciences 26(2): 195–201.

Tulika T and Mala A. 2015. The pharmaceutical potential of aquatic plant Pistia stratiotes (L.) and Eichhornia crassipes. Journal of Plant Sciences 3(1):10-18.

Zaman FK, Utomo NBP, Setiawati M, Alimudin. 2017. Evaluation of pollard substitution with water hyacinth Eichhornia crassipes on enzyme activity and growth performance of Tilapia Oreochromis niloticus. International Journal of Fisheries and Aquatic Studies 5(3):420–424.

Refbacks

  • There are currently no refbacks.