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Sains Malaysiana
52(3)(2023): 771-782
http://doi.org/10.17576/jsm-2023-5203-07
(Kepentingan
Fras Serangga Bergentian Kasar Tinggi untuk Pengurangan Berkesan Ketoksikan
Amonium (NH4+) dan Pertumbuhan Optimum Sayur Jangka
Pendek, Amaranthus tricolor)
DAHLIA SHAHBUDDIN1, ANSARUDDIN OTHMAN2 & AHMAD BUKHARY AHMAD KHAIR1,*
1School of Biological Sciences, G08
Building, Universiti Sains Malaysia, 11800 USM Penang, Malaysia
2Al Ansar Integrated Pvt. Ltd. No. 3087, MK
12 Lahar Tambun, 13300 Tasek Gelugor, North Seberang Perai, Penang, Malaysia
Received: 10 August
2022/Accepted: 3 February 2023
Abstract
This study focused on the
efficacy of the fecal matter component from insect-derived frass containing
high total crude fibre (TCF) for the effective alleviation of ammonium (NH4+)
toxicity in short-term vegetables. Two types of insect-derived frass, bred from
different feeding substrates, the black soldier fly (BSF) larvae, Hermetia
illucens, known as the BSF frass (BSFF), and the common house cricket
(CHC), Acheta domesticus, of both adults and nymphal instars, known as
CHC frass (CHCF). The short-term vegetable, Amaranthus tricolor, was
chosen as the test crop. A total of 200 A. tricolor vegetable seedlings
were tested, with five experimental replicates, each with 10 A. tricolor seedlings set following completely randomized design, each for the different
fertilizer treatments, BSFF fertilizer, CHCF fertilizer, NPK 15:15:15
fertilizer as the positive control, and no fertilizer as the negative control,
pre-prepared in the form of soil–fertilizer mixtures, applied following the
rate of 120 kg N ha−1. Comparatively, BSFF fecal matter
component recorded lower rates of decomposition of total organic matter (TOM),
total organic carbon (TOC), and organic nitrogen (ON) but with a higher rate of
TCF decomposition, contrary to CHCF with higher rates of decomposition of TOM,
TOC, ON, and a lower rate of TCF decomposition. Additionally, the rates of ON
decomposition to NH4+ and NH4+ uptake were lower for BSFF compared to CHCF. The ratio rates of TOM-TCF
(22:31), TOM-ON (22:02), TOC-TCF (30:31), and TOC-ON (30:02) for BSFF recorded
the highest difference, compared to CHCF with a lower difference of ratio
rates; TOM-TCF (36:21), TOM-ON (36:13), TOC-TCF (38:21), and TOC-ON (38:13).
The alleviation of NH4+ toxicity for short-term
vegetables with high sensitivity toward excessive NH4+ uptake could only be effectively alleviated with high TCF fecal matter
component of the frass, increasing decomposition toward the TCF element and
reduced decomposition on the organic N element of the frass’ fecal matter.
Keywords: Acheta domesticus; ammonium toxicity; crude fibre; Hermetia
illucens; organic fertilizer
Abstrak
Kajian
ini memberi tumpuan kepada keberkesanan komponen bahan tahi daripada fras
terbitan serangga yang mengandungi jumlah gentian kasar tinggi (TCF) untuk
mengurangkan ketoksikan ammonium (NH4+) yang berkesan pada sayuran jangka
pendek. Dua jenis fras
terbitan serangga, dibiakkan daripada substrat pemakanan yang berbeza, larva
lalat askar hitam (BSF), Hermetia
illucens, dikenali sebagai BSF fras (BSFF), dan cengkerik rumah biasa
(CHC), Acheta domesticus, kedua-dua
dewasa dan instar
nimfa, dikenali sebagai CHC fras (CHCF). Sayuran jangka pendek, Amaranthus tricolor dipilih sebagai tanaman ujian. Sebanyak 200
anak benih sayur A. tricolor telah
diuji, dengan lima ulangan uji kaji, setiap satu dengan 10 anak benih A. tricolor ditetapkan mengikut reka
bentuk rawak sepenuhnya, setiap satu untuk rawatan baja yang berbeza, baja
BSFF, baja CHCF, baja NPK 15:15:15 sebagai kawalan positif dan tiada baja sebagai kawalan
negatif, yang disediakan terlebih dahulu dalam bentuk campuran tanah-baja,
digunakan mengikut kadar 120 kg N ha−1. Secara
perbandingan, komponen bahan tahi BSFF merekodkan kadar penguraian jumlah bahan
organik (TOM), jumlah karbon organik (TOC) dan nitrogen organik (ON) yang lebih
rendah tetapi dengan kadar penguraian TCF yang lebih tinggi, bertentangan
dengan CHCF dengan kadar penguraian yang lebih tinggi. TOM, TOC, ON
dan kadar penguraian TCF yang lebih rendah. Selain itu, kadar penguraian ON kepada pengambilan NH4+ dan NH4+ adalah lebih rendah untuk BSFF berbanding CHCF. Kadar nisbah
TOM-TCF (22:31), TOM-ON (22:02), TOC-TCF (30:31) dan TOC-ON (30:02) untuk BSFF
mencatatkan perbezaan tertinggi, berbanding CHCF dengan perbezaan
kadar nisbah yang lebih rendah; TOM-TCF (36:21), TOM-ON (36:13), TOC-TCF (38:21) dan
TOC-ON (38:13). Pengurangan ketoksikan NH4+ untuk
sayuran jangka pendek dengan kepekaan yang tinggi terhadap pengambilan NH4+ yang berlebihan hanya boleh dikurangkan dengan berkesan dengan komponen bahan
tahi TCF yang tinggi dalam fras, meningkatkan penguraian ke arah unsur TCF dan
mengurangkan penguraian pada unsur N organik fras tahi.
Kata
kunci: Acheta domesticus; baja
organik; gentian kasar; Hermetia
illucens; ketoksikan amonium
REFERENCES
Ahmad, F., Yahaya,
A.S. & Farooqi, M.A. 2006. Characterization and geotechnical properties of
Penang residual soil with emphasis on landslides. Am. J. Environ. Sci. 2(4):
121-128.
Alattar, M., Alattar,
F. & Popa, R. 2016. Effects of microaerobic fermentation and black soldier
fly larvae food scrap processing residues on the growth of corn plants (Zea
mays). Plant Sci Today 3: 57-62.
Bebber, D.P. &
Richards, V.R. 2022. A meta-analysis of the effect of organic and mineral
fertilizers on soil microbial diversity. Appl. Soil Ecol. 175: 104450.
Beesigamukama, D.,
Mochoge, B., Korir, N.K., Fiaboe, K.K.M., Nakimbugwe, D., Khamis, F.M.,
Subramanian, S., Dubois, T., Musyoka, M.W., Ekesi, S., Kelemu, S. & Tanga,
C.M. 2020. Exploring black soldier fly frass as novel fertilizer for improved
growth, yield, and nitrogen use efficiency of maize under field conditions. Front.
Plant Sci. 11: 574592.
Čičková, H., Newton, G.L., Lacy, R.C. & Kozánek,
M. 2015. The use of fly larvae for organic waste treatment. Waste Manag. 35:
68-80.
Devic, E. 2016.
Assessing insect-based products as feed ingredients for aquaculture. Ph.D.
Thesis. University of Sterling, Sterling, United Kingdom (Unpublished).
Dlamini, J.C.,
Chadwick, D.R., Hawkins, J.M.B., Martinez, J., Scholefield, D., Ma, Y. &
Cardenas, L.M. 2020. Evaluating the potential of different carbon sources to
promote denitrification. J. Agric. Sci. 158(3): 194-205.
Esteban, R., Ariz,
I., Cruz, C. & Moran, J.F. 2016. Review: Mechanism of ammonium toxicity and
the quest for tolerance. Plant Sci. 248: 92-101.
Francioli, D.,
Schulz, E., Lentendu, G., Wubet, T., Buscot, F. & Reitz, T. 2016. Mineral
vs organic amendments: Microbial activity structure, activity and abundance of
agriculturally relevant microbes are driven by long-term fertilization
strategies. Front. Microbiol. 7: 1446.
Geisseler, D. &
Scow, K.M. 2014. Long-term effects of mineral fertilizers on soil
microorganisms - A review. Soil Biol. Biochem. 75: 54-63.
Gold, M., Tomberlin,
J.K., Diener, S., Zurbrügg, C. & Mathys, A. 2018. Decomposition of biowaste
macronutrients, microbes, and chemicals in black solder fly larval treatment: A
review. Waste Manag. 82: 302-318.
Gärttling, D., Kirchner, S.M. & Schulz, H. 2020. Assessment
of the N- and P-fertilization effect of Black Soldier Fly (Diptera:
Stratiomyidae) by-products on maize. J. Insect Sci. 20(5): 1-11.
Jha, N., Saggar, S.,
Giltrap, D., Tillman, R. & Deslippe, J. 2017. Soil properties impacting
denitrifier community size, structure, and activity in New Zealand dairy-grazed
pasture. Biogeosci. Discuss. 14: 4243-4253.
Kagata, H. &
Ohgushi, T. 2012. Positive and negative impacts of insect frass quality on soil
nitrogen availability and plant growth. Popul. Ecol. 54: 75-82.
Kagata, H. &
Ohgushi, T. 2011. Ingestion and excretion of nitrogen by larvae of a cabbage
armyworm: The effects of fertilizer application. Agric. For. Entomol. 13:
143-148.
Kong, T.B. 1994.
Engineering properties of granitic soils and rocks of Penang Island, Malaysia. Bull.
Geol. Soc. Malays. 35: 69-77.
Kundu, D.K., Ladha, J.K. & Guzman, E.L. 1996.
Tillage depth influence on soil nitrogen distribution and availability in a
rice lowland. Soil Sci. Soc. Am. J. 60(4): 1153-1159.
Latimer, G.W. 2016. Official
Methods of Analysis. Gaithersburg: AOAC International.
Li, Z., Tang, Z.,
Song, Z., Chen, W., Tian, D., Tang, S., Wang, X., Wang, J., Liu, W., Wang, Y.,
Li, J., Jiang, L., Luo, Y. & Niu, S. 2021. Variations and controlling
factors of soil denitrification rate. Glob. Chang. Biol. 28(6):
2133-2145.
Liu, S., He, H.,
Feng, G. & Chen, Q. 2009. Effect of nitrogen and sulfur interaction on
growth and pungency of different pseudostem types of Chinese spring onion (Allium
fistulosum L.). Sci. Hortic. 121(1): 12-18.
Ma, J., Lei, Y.,
Rehman, K.U., Yu, Z., Zhang, J., Li, W., Li, Q., Tomberlin, J.K. & Zheng,
L. 2018. Dynamic effects of initial pH of substrate on biological growth and
metamorphosis of Black Soldier Fly (Diptera: Stratiomyidae). Environ. Entomol. 47: 159-165.
Mesgaran, M.B.,
Matzrafi, M. & Ohadi, S. 2021. Sex dimorphism in dioecious Palmer amaranth
(Amaranthus palmeri) in response to water stress. Planta 254(1):
17. 10.1007/s00425-021-03664-7
Mohammed-Nour, A.,
Al-Sewailem, M. & El-Naggar, A.H. 2019. The influence of alkalization and
temperature on ammonia recovery from cow manure and the chemical properties of
the effluents. Sustainability 11: 2441.
Munene, R., Changamu,
E., Korir, N. & Joseph, G-O. 2017. Effect of different nitrogen forms on
growth, phenolics, flavonoids, and antioxidant activity in amaranth species. Trop.
Plant Res. 4(1): 81-89.
Nakhro, N. &
Dkhar, M.S. 2010. Impact of organic and inorganic fertilizers on microbial
populations and biomass carbon paddy field soil. J. Agron. 9: 102-110.
Pillai, C.K.S., Paul,
W. & Sharma, C.P. 2009. Chitin and chitosan polymers: Chemistry,
solubility, and fiber formation. Prog. Polym. Sci. 34: 641-678.
Qasim, W., Zhao, Y.,
Wan, L., Lv, H., Lin, S., Gettel, G.M. & Butterbatch-Bahl, K. 2022. The
potential importance of soil denitrification as a major N loss pathway in
intensive greenhouse vegetable production systems. Plant Soil 471:
157-174.
Rao, D., Meng, F.,
Yan, X., Zhang, M., Yao, X., Kim, K.S., Zhao, J., Qiu, Q., Xie, F. & Zhang,
W. 2021. Changes in soil microbial activity, bacterial community composition,
and function in a long-term continuous soybean cropping system after corn
insertion and fertilization. Front. Microbiol. 12: 638326.
Ravi Kumar, M.N.V.
2000. A review of chitin and chitosan applications. React. Funct. Polym. 46: 1-27.
Roosta, H.R. &
Schjoerring, J.K. 2008a. Root carbon enrichment alleviates ammonium toxicity in
cucumber plants. J. Plant Nutr. 31(5): 941-958.
Roosta, H.R. &
Schjoerring, J.K. 2008b. Effects of nitrate and potassium on ammonium toxicity
in cucumber plants. J. Plant Nutr. 31(7): 1270-1283.
Salomone, R., Saija,
G., Mondello, G., Giannetto, A., Fasulo, S. & Savastano, D. 2017.
Environmental impact of food waste bioconversion by insects: Application of
life cycle assessments to process using Hermetia illucens. J. Clean
Prod. 140: 890-905.
Soana, E., Vincenzi,
F., Colombani, N., Mastrocicco, M., Fano, E.A. & Castaldelli, G. 2022. Soil
denitrification, the missing piece in the puzzle of nitrogen budget in lowland
agricultural basins. Ecosystems 25: 633-647.
Tanga, C.M.,
Beesigamukama, D., Kassie, M., Egonyu, P.J., Ghemoh, C.J., Nkoba, K.,
Subramanian, S., Anyega, A.O. & Ekesi, S. 2021. Performance of black
soldier fly frass fertiliser on maize (Zea mays L.) growth, yield,
nutritional quality, and economic returns. J. Insect Food. Feed. 10.3920/JIFF2021.0012.
Trakoonyingcharoen, P., Kheoruenromne,
I., Suddhiprakam, A. & Gilkes, R.J. 2006. Properties of kaolins in red
oxisols and red ultisols in Thailand. Appl. Clay Sci. 32: 25-39.
van Rooyen, I.L.,
Brink, H.G. & Nicol, W. 2021. pH-based control strategies for the
nitrification of high-ammonium wastewaters. Fermentation 7: 319.
Weng, L., Zhang, M.,
Wang, K., Chen, G., Ding, M., Yuan, W., Zhu, Y., Xu, W. & Xu, F. 2020.
Potassium alleviates ammonium toxicity in rice by reducing its uptake through
activation of plasma membrane H+-ATPase to enhance protein
intrusion. Plant Physiol. Biochem. 151: 429-437.
Wu, L., Jiang, Y.,
Zhao, F., He, X., Liu, H. & Yu, K. 2020. Increased organic fertilizer
application and reduced chemical fertilizer application affect the soil
properties and bacterial communities of grape rhizosphere soil. Sci. Rep. 10: 9568.
Yan, F., Schubert, S.
& Mengel, K. 1996. Soil pH increase due to biological decarboxylation or
organic anions. Soil Biol. Biochem. 28(4-5): 617-624.
Zhang, W.Z., Chen,
X.Q., Wang, H.Y., Wei, W.X. & Zhou, J.M. 2022. Long-term straw return
influenced ammonium ion retention at the soil aggregate scale in an Anthrosol
with rice-wheat rotations in China. J. Integr. Agric. 21(2): 521-531.
*Corresponding author; email: abukhary@usm.my
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