EFEKTIVITAS PRIMING NANOPARTIKEL PERAK (AgNPs) DALAM MENINGKATKAN DAYA SIMPAN BENIH KEDELAI
Date
2025Metadata
Show full item recordAbstract
Penurunan produksi kedelai kerap disebabkan kurangnya ketersediaan benih
bermutu akibat rendahnya daya simpan dan laju deteriorasi yang cepat selama
penyimpanan. Penelitian ini bertujuan untuk mengetahui efektivitas nanopriming
partikel perak dalam meningkatkan daya simpan benih kedelai. Percobaan ini
menggunakan kedelai varietas Argomulyo dengan daya berkecambah (DB) awal
90% dan Detam 1 (DB awal 87%) dengan rancangan kelompok lengkap teracak
dua faktor: kombinasi varietas dan perlakuan priming AgNPs (tanpa priming dan
priming 10% AgNPs), serta periode simpan (0-6 bulan). Benih direndam dalam
larutan AgNPs dengan rasio 3:10 (w/v) selama 6 jam pada suhu 27,8-29,1°C.
Kemudian benih dikeringkan selama 24 jam hingga kadar air 11,10% (Argomulyo)
dan 10,54% (Detam 1). Pengeringan lebih lanjut mengakibatkan retak pada
permukaan kulit benih. Selanjutnya benih disimpan di dalam kemasan plastik
polipropilen pada suhu 27,8-29,1°C dan RH 64,3%-73,53%, dan diuji mutu
benihnya setiap bulan. Kadar air benih pada awal periode simpan, setelah
pengukuran ulang, tercatat 11,36% (Argomulyo) dan 11,27% (Detam 1). Hasil
menunjukkan bahwa perlakuan priming AgNPs 10% pada benih kedelai tidak
efektif dalam meningkatkan daya simpan. Hal tersebut diduga karena benih setelah
priming sudah memasuki fase III imbibisi yang menginisiasi proses deteriorasi
lebih awal. Viabilitas Argomulyo dengan priming AgNPs 10% hanya bertahan
hingga bulan ke-3 (DB 81%), lebih singkat dibanding tanpa priming (DB 82%)
hingga bulan ke-5. Pada Detam 1, benih di-priming AgNPs 10% hanya
mempertahankan viabilitas hingga bulan ke-1 (DB 81%), sementara tanpa priming
menunjukkan DB lebih tinggi (83%) hingga bulan ke-4. Secara keseluruhan, benih
tanpa perlakuan priming menunjukkan viabilitas dan vigor lebih baik serta bertahan
lebih lama hingga akhir periode simpan 6 bulan. Decreased soybean production is often caused by the lack of quality seed
availability due to low seed longevity and a rapid deterioration rate during storage.
This study aimed to determine the effectiveness of silver nanoparticle (AgNPs)
nanopriming in enhancing the longevity of soybean seeds. The experiment used
Argomulyo (initial germination 90%) and Detam 1 (initial germination 87%)
soybean varieties, arranged in a two-factor randomized complete block design:
variety and AgNPs priming treatment (unprimed and 10% AgNPs priming), and
storage period (0-6 months). Seeds were soaked in AgNPs solution at a 3:10 (w/v)
seed-to-solution ratio for 6 hours at 27.8-29.1°C. The seeds were then dried for 24
hours to a moisture content of 11.10% (Argomulyo) and 10.54% (Detam 1). Further
drying resulted in cracks on the surface of the seed coat. Subsequently, seeds were
stored in polypropylene plastic packaging at 27.8-29.1°C and 64.3%-73.53% RH,
and their quality was tested monthly. The seed moisture content at the beginning of
the storage period, after re-measurement, was recorded as 11.36% (Argomulyo)
and 11.27% (Detam 1). Results showed that 10% AgNPs priming treatment on
soybean seeds was not effective in enhancing seed longevity. This was presumably
due to primed seeds entering phase III imbibition, which initiated the earlier
deterioration process. The viability of Argomulyo seeds with 10% AgNPs priming
only lasted up to month 3 (81% germination), which was shorter compared to
unprimed seeds that remained high (82%) up to month 5 of storage. For Detam 1,
seeds primed with 10% AgNPs only maintained viability up to month 1 (81%
germination), whereas unprimed seeds showed higher germination (83%) up to
month 4. Overall, unprimed seeds demonstrated better viability and vigor, and they
lasted longer until the end of the 6-month storage period. Thus, it is concluded that
10% AgNPs priming on soybean seeds was less effective in enhancing seed
longevity.
