Sains Malaysiana 49(10)(2020): 2403-2410

http://dx.doi.org/10.17576/jsm-2020-4910-06

 

Phytotoxic Activity of Oil Palm Frond Mulch in Combination with Selected Pre-Emergence Herbicide

(Aktiviti Fitotoksik Sungkupan Pelepah Kelapa Sawit dalam Gabungan dengan Herbisid Pracambah Terpilih)

 

DILIPKUMAR MASILAMANY1, MUHAMMAD AMIRUL NORDIN2, NORHAFIZAH MD ZAIN3, ISMAIL BIN SAHID4 & CHUAH TSE SENG5*

 

1Rice Research Center, Malaysian Agricultural Research and Development Institute (MARDI), 13200 Kepala Batas, Pulau Pinang, Malaysia

 

2School of Food Science and Technology, Universiti Malaysia Terengganu, 20130 Kuala Terengganu, Terengganu Darul Iman, Malaysia

 

3Faculty of Agro-based Industry, Universiti Malaysia Kelantan, Jeli Campus, 17600 Jeli, Kelantan Darul Naim, Malaysia

 

4School of Environmental and Natural Resource Sciences, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia

 

5Faculty of Plantation and Agrotechnology, Universiti Teknologi MARA, 02600 Arau, Perlis Indera Kayangan, Malaysia

 

Diserahkan: 21 Februari 2020/Diterima: 13 April 2020

 

ABSTRACT

The combination of mulch and herbicide is a promising method for weed control which could reduce the frequency of hand weeding. This study was conducted to evaluate the phytotoxic effects of Elaeis guneensis var. tenera (oil palm) frond (OPF) mulch in combination with several pre emergence herbicides on the inhibition of goosegrass (Eleusine indica (L.) Gaertn), slender cyperus (Cyperus distans L.f.) and coat buttons (Tridax procumbens (L.) under greenhouse conditions. Three rates of dinoterb, oxyfluorfen, and isoxaflutole were respectively, applied with or without OPF mulch at 3.5 t ha−1. The results showed that the weed inhibition provided by the dinoterb-treated OPF mulch (60 to 100%) was greater than dinoterb (0 to 50%) or OPF mulch (0 to 60%) applied alone across all the application rates and bioassay species. The oxyfluorfen-treated OPF mulch also gave greater inhibition (70 to 90%) of Tprocumbens than those provided by oxyfluorfen (20 to 40%) or the OPF mulch alone (55 to 60%). However, an increase in inhibition of C. distans and E. indica was only evident at a low rate of oxyfluorfen when combined the OPF mulch. Weed inhibition was noted with increasing rates of isoxaflutole alone but the isoxaflutole-treated OPF mulch did not lead to further inhibition of weeds except for Tprocumbens. These results suggest that the phytotoxicity of OPF mulch in combination with herbicides are dependent on weed species, herbicides, and application rates, with dinoterb being the most compatible with OPF mulch when combined.

 

Keywords: Elaesis guneensis var. tenera; oil palm frond; rachis; residue mulch; seedling emergence; seedling growth

 

ABSTRAK

Gabungan antara sungkupan dan herbisid adalah kaedah yang berpotensi untuk mengawal rumpai kerana ia boleh mengurangkan kekerapan merumpai menggunakan tangan. Kajian ini dijalankan untuk menilai kesan fitotoksik sungkupan pelepah Elaeis guneensis var. tenera (kelapa sawit), OPF dengan gabungan beberapa herbisid pracambah ke atas perencatan rumput sambau (Eleusine indica (L.) Gaertn), slender cyperus (Cyperus distans L.f.) dan rumpai kancing baju (Tridax procumbens (L.) di bawah keadaan rumah hijau. Tiga kadar dinoterb, oksifluorfen dan isoksaflutol, masing-masing diaplikasikan dengan atau tanpa sungkupan OPF pada 3.5 t ha−1. Keputusan menunjukkan bahawa perencatan rumpai yang diberi sungkupan OPF terawat dinoterb (60 hingga 100%) lebih besar berbanding dinoterb (0 hingga 50%) atau sungkupan OPF (0 hingga 60%) sahaja untuk semua kadar aplikasi dan spesies bioasai. Sungkupan OPF terawat oksifluorfen juga memberikan perencatan yang besar (70 hingga 90%) ke atas Tprocumbens berbanding oksifluorfen (20 hingga 40%) atau sungkupan OPF sahaja (55 hingga 60%). Walau bagaimanapun, peningkatan perencatan ke atas C. distans dan E. indica hanya ketara pada kadar oksifluorfen yang rendah apabila digabungkan dengan sungkupan OPF. Perencatan rumpai dapat dilihat dengan peningkatan kadar isoksaflutol sahaja tetapi sungkupan OPF terawat isoksaflutol tidak membawa kepada perencatan rumpai kecuali untuk Tprocumbens. Keputusan ini mencadangkan bahawa kefitotoksikan sungkupan OPF dengan gabungan herbisid bergantung kepada spesies rumpai, herbisid, dan kadar aplikasi, dengan dinoterb paling sesuai digabungkan dengan sungkupan OPF.

 

Kata kunci: Elaesis guneensis var. tenera; kemunculan anak benih; pelepah kelapa sawit; pertumbuhan anak benih; rakis; sisa sungkupan

 

RUJUKAN

Alister, C.A., Gomez, P.A., Rojas, S. & Kogan, M. 2009. Pendimethalin and oxyfluorfen degradation under two irrigation conditions over four years application. Journal of Environmental Science and Health, Part B 44(4): 337-343.

Alletto, L., Benoit, P., Bergheaud, V. & Coquet, Y. 2012. Variability of retention process of        isoxaflutole and its diketonitrile metabolite in soil under conventional and conservation tillage. Pest Management Science 68(4): 610-617.

Altland, J.E., Gilliam, C.H. & Wehtje, G.W. 2003. Weed control in field nurseries. HortTechnology 13(1): 9-14.

Case, L.T. & Mathers, H.M. 2006. Herbicide-treated mulches for weed control in nursery            container crops. Journal of Environmental Horticulture 24(2): 84-90.

Case, L., Mathers, H.M. & Tuttle, N. 2002. Herbicide-treated mulches for ornamental weed control.  Proceeding of the Northeastern Weed Science Society 56: 72. 

Chauhan, B.S. & Abugho, S.B. 2012. Interaction of rice residue and pre herbicides on emergence and biomass of four weed species. Weed Technology 26(4): 627-632.

Chen, Y., Strahan, R.E. & Bracy, R.P. 2013. Effects of mulching and preemergence herbicide      placement on yellow nutsedge control and ornamental plant quality in landscape beds. HortTechnology 23(5): 651-658.

Chuah, T.S. & Lim, W.K. 2015. Assessment of phytotoxic potential of oil palm leaflet, rachis and frond extracts and powders on goosegrass (Eleusine indica (L.) Gaertn.) germination, emergence and seedling growth. Malaysian Applied Biology Journal 44(2): 75-84.

Dilipkumar, M., Muhammad Amirul, N., Ismail, S. & Chuah, T.S. 2019. Effects of imazethapyr treated oil palm frond residue mulch on weed control and ornamental plant quality in nurseries. Indian Journal of Horticulture 76(1):  148-154.

Dilipkumar, M., Chuah, T.S., Goh, S.S. & Ismail, S. 2017a. Weed management issues, challenges, and opportunities in Malaysia. Crop Protection 134: 1-9.

Dilipkumar, M., Mazira, C.M. & Chuah, T.S. 2017b. The potential use of oil palm frond mulch treated with imazethapyr for weed control in Malaysian coconut plantation. Sains Malaysiana 46(8): 1171-1181.

Dilipkumar, M., Mazira, C.M. & Chuah, T.S. 2015. Phytotoxicity of different organic mulches on emergence and seedling growth of goosegrass (Eleusine indica). Journal of Tropical Agriculture and Food Science 43(2): 145-153.

Escher, B.I. & Schwarzenbach, R.P. 2000. Evaluation of liposome - water partitioning of organic acids and bases. Environmental Science & Technology 34(18): 3954-3961.

Gorski, S.F. 1993. Slow-release delivery system for herbicides in container-grown stock. Weed Technology 7(4): 894-899.

Ismail, B.S., Chuah, T.S., Salmijah, S., Teng, Y.T. & Schumacher, R.W. 2002. Germination and seedling emergence of glyphosate-resistant and susceptible biotypes of goosegrass (Eleusine indica (L.) Gaertn.). Weed Biology and Management 2(4): 177-185.

Judge, C.A., Neal, J.C. & Leidy, R.B. 2003. Trifluralin (Preen) dissipation from the surface layer of a soilless plant growth substrate. Journal of Environmental Horticulture 21(4): 216-222.

Kah, M. & Brown, C.D. 2006. Adsorption of ionisable pesticides in soils. Reviews of Environmental Contamination and Toxicology 188: 149-217.

Khalid, H., Zin, Z.Z. & Anderson, J.M. 1999. Effect of oil palm residues management at replanting on soil nutrient dynamics and oil palm growth. In Proceeding of the PORIM International Palm Oil Congress. Kuala Lumpur, Malaysia: Malaysian Palm Oil Board. pp. 235-246.

Lai, L.W., Marini, I., Nasrudin, M.R., Hashim, E.F., Ya’cob, M.Z., Ani, I. & Junaid, A. 2016. Study on composition, structural and property changes of oil palm frond biomass under different pretreatments. Cellulose Chemistry and Technology 50(9-10): 951-959.

Mahnken, G.E., Skroch, W.A. & Sheets, T.J. 1992. Loss of simazine and metolachlor in surface runoff water from a container ornamental production site. In Weed Science Society of America Abstracts. Champaign, IL: Weed Science Society of America. p. 111.

Malhi, S. & Lemke, R.L. 2007. Tillage, crop residue and N fertilizer effects on crop yield, nutrient uptake, soil quality and nitrous oxide gas emissions in a second 4-yr rotation cycle. Soil & Tillage Research 96(1-2): 269-283.

Marble, S.C. 2015. Herbicide and mulch interactions: a review of the literature and implications for the landscape maintenance industry. Weed Technology 29(3): 341-349.

Martins, J.M. & Mermoud, A. 1998. Sorption and degradation of four nitroaromatic herbicides in mono and multi-solute saturated/unsaturated soil batch systems. Journal of Contaminant Hydrology 33(1-2): 187-210.

Mathers, H. 2003. Novel methods of weed control in containers. HortTechnology 13(1): 28-31.

Mathers, H. & Case, L.T. 2010. Microencapsulated herbicide-treated bark mulches for nursery container weed control. Weed Technology 24(4): 529-534.

Moraidi, A., Teh, C.B.S., Goh, K.J., Husn, A.M.H. & Fauziah, I. 2012. Evaluation of four soil conservation practices in a non-terraced oil palm plantation. Agronomy Journal 104(6): 1727-1740.

Muhammad Amirul, N., Dilipkumar, M. & Chuah, T.S. 2019. Different imazethapyr placements and rainfall amounts affect phytotoxic activity of imazethapyr in combination with oil palm frond residue mulches against common weeds in landscapes. Sains Malaysiana 48(3): 581-588.

Plimmer, J.R., Gammon, D.W. & Ragsdale, N.N. 2002. Encyclopedia of Agrochemicals. Vol 1. New Jersey: John Wiley & Sons, Inc.

Schmitz, G.L., Witt, W.W. & Mueller, T.C. 2001. The effect of wheat (Triticum aestivum) straw levels on chlorimuron, imazaquin, and imazethapyr dissipation and interception. Weed Technology 15(1): 129-136.

Senseman, S.A. 2007. Herbicide Handbook. USA: Weed Science Society of America.

Shaner, D.L. 2014. Herbicide Handbook. USA: Weed Science Society of America. pp. 335-336.

Sharma, P., Abrol, V. & Sharma, R. 2011. Impact of tillage and mulch management on economics, energy requirement and crop performance in maize wheat rotation in rainfed subhumid inceptisols, India. European Journal of Agronomy 34(1): 46-51.

Somireddy, U.R. 2012. Effect of herbicide-organic mulch combinations on weed control and       herbicide persistence. Ph.D. The Ohio State University (Unpublished).

Sopena, F., Maqueda, C. & Morillo, E. 2009. Controlled release formulations of herbicides based on micro-encapsulation. Ciencia e Investigación Agraria 35(1): 27-42.

Taylor, N.G., Laurie, S. & Turner, S.R. 2000. Multiple cellulose synthase catalytic subunits are required for cellulose synthesis in Arabidopsis. Plant Cell 12(12): 2529-2540.

 

*Pengarang untuk surat-menyurat; email: chuahts@uitm.edu.my

   

 

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