Insidensi dan Sebaran Tungau Hama pada Pepaya di Pulau Lombok (Incidence and Distribution of Mites on Papaya in Lombok Island)

<p>Tungau hama merupakan salah satu penyebab penurunan produksi pepaya di Pulau Lombok. Penelitian bertujuan menentukan insidensi, sebaran, dan identitas tungau hama pepaya di Pulau Lombok. Sebaran ditentukan berdasarkan insidensi tungau hama pada 50 lokasi pengambilan contoh dan tungau hama diidentifikasi secara morfologi dan molekuler berdasarkan runutan rDNA ITS2. Hasil penelitian menunjukkan terdapat 12 spesies tungau berdasarkan identifikasi morfologi, yaitu Aculops pelekassi, Calacarus carinatus, Brevipalpus californicus, B. obovatus, B. phoenicis, Tenuipalpus pasificus, Eutetranychus africanus, Panonychus citri, Tetranychus fijiensis, T. kanzawai, T. piercei, dan Tarsonemus bilobatus dengan insidensi berkisar antara 2–72%. Di antara spesies yang ditemukan, P. citri merupakan tungau hama dengan sebaran dan insidensi tertinggi (72%). Hasil analisis persebaran menunjukkan bahwa keanekaragaman spesies tungau hama pada tanaman pepaya di Pulau Lombok adalah tinggi dengan tingkat dominansi rendah dan tingkat kemerataan spesies yang tinggi. Uji PCR dan analisis runutan DNA berhasil mendeteksi dan mengidentifikasi enam spesies tungau hama, yaitu T. piercei, T. kanzawai, E. africanus, dan P. citri (Tetranychidae), pada 500–600 pb serta B. californicus dan B. phoenicis (Tenuipalpidae) pada 600–700 pb. Similaritas tertinggi ditemukan pada T. piercei dan T. kanzawai (100%). Ini merupakan laporan pertama keberadaan B. californicus sebagai hama pada tanaman pepaya di Pulau Lombok.</p><p><strong>Keywords</strong></p><p>Frekuensi kemunculan; PCR; Perunutan DNA; Sebaran</p><p><strong>Abstract</strong></p><p>Mites are one obstacle of papaya production in Lombok Island. Thus, the aim of research was to determine incidence, distribution and identity of mites on papaya plant in Lombok Island. Distribution is determined based on incidence of in 50 sampling area, while mites identified morphological and molecularly based on rDNA ITS2. This studies revealed that there were 12 species of mites based on morphological, namely Aculops pelekassi, Calacarus carinatus, Brevipalpus californicus, B. obovatus, B. phoenicis, Tenuipalpus pacificus Eutetranychus africanus, Panonychus citri, Tetranychus fijiensis, T. kanzawai, and T. pierce with an incidence ranging 2-72%. Among species found, P. citri has the highest distribution and incidence of 72%. The results of the distribution analysis showed that diversity of mite species was high, with low dominance and high evenness. PCR assay successfully amplified DNA of six species, namely T. piercei, T. kanzawai, E. africanus, P. citri with the DNA size of 500-600 bp and B. californicus, B. phoenicis with the DNA size of 600-700 bp. The highest similarity species was found on T .piercei and T. kanzawai (100%). This was the first report of B. californicus infestating on papaya in Lombok.</p>

Selection of suitable predatory mites against, Panonychus citri (McGregor) (Acari: Tetranychidae) using relative control potential metrics and functional response

Background Selection of suitable predators for the control of the spider mite, Panonychus citri is always a challenge due to the lack of their reliable predicted efficacy. In this laboratory study, biological control potential of Neoseiulus californicus, N. cucumeris and Scapulaseius newsami, against P. citri using the “Relative Control Potential” (RCP) metric to compare their efficacies was evaluated. The functional response type was determined at different prey densities (after 24 h). Results The type II functional responses were observed from all the tested predators feeding on 3 different life stages of P. citri, except N. cucumeris, which was fed only on eggs. All predatory mites preferred eggs of P. citri with a higher attack rate (1.397) in N. cucumeris, followed by N. californicus (1.238) and S. newsami (0.975). Handling time was also lower in N. cucumeris than other mites, with a trend as: for N. cucumeris, eggs > adults > immature stages; for N. californicus, immature stages > eggs > adults, while for S. newsami, eggs > immature stages > adults. The integration of greenhouse abundance and fecundity (%) data resulted in a higher RCP for N. cucumeris than other predators. Conclusion Neoseiulus cucumeris was selected as the most suitable predatory mite for the control of P. citri with a higher RCP and potential to maximum reproduction. S. newsami, which was used for the first time, gave almost similar results compared to N. californicus but with lower efficacy.

Sublethal effects of bifenazate on biological traits and enzymatic properties in the Panonychus citri (Acari: Tetranychidae)

Panonychus citri, a major citrus pest. In pest management, bifenazate is a novel acaricide with high biological activity against red mites, such as Tetranychus urticae Koch. However, in the field, pests are frequently exposed to sublethal or lethal concentrations of pesticides. At present, its sublethal effects on P. citri have not been reported. Therefore, in order to investigate sublethal effect of bifenazate on biological traits and enzymatic properties of P. citri. The newly emerged females were treated with two concentrations of bifenazate: LC10 and LC30, the development and fecundity were observed. The results showed that female adult duration, fecundity, oviposition days, longevity were decrease compared with control, but pre-oviposition period was longer, net reproductive rate (R0), mean generation (T) were decreased, intrinsic rate of increase (rm), finite rate (λ) were decreased in LC30, however, doubling time was increased. Enzymatic tests showed that CAT, POD, CarE activities were higher in treatments than control. The SOD and GST activities were lower in LC30 than control and LC10, the CYP450 activity was decreased with the increasing concentrations. This study demonstrated that low lethal concentrations of bifenazate adversely affected life table parameters, enzymatic properties in P. citri. Therefore, bifenazate has the potential to control this pest.

Laporan baru tungau Tarsonemus bilobatus Suski dan karakter utama tungau lain pada daun tanaman jeruk di Pulau Jawa, Indonesia

Citrus is one of the most important fruit crops in Indonesia. One of the main problems in citrus production is mite infestation. Many mite species were reported attacking citrus around the world. This study was aimed to identify mites and describe the main characters of various species of mites on citrus in Java, Indonesia. Sampling was carried out at the location of citrus plantations and citrus plants in the yard of the house which was carried out purposively. In a large planting area, sampling was carried out on 10 citrus trees that showed symptoms of mite attack. The identification process is carried out by a mounting process to obtain specimens that can be observed under a compound microscope using PVA. Eight species of mites were collected from 8 various of citrus from 15 location. Six mites species were identified as phytophagous, i.e., Panonychus citri McGregor, Eotetranychus sp., Eutetranychus sp. (Family Tetranychidae), Brevipalpus phoenicis (Geijskes) (Family Tenuipalpidae), Tarsonemus bilobatus Suski (Family Tarsonemidae), and Phyllocoptruta oleivora (Ashmead) (Family Eriophyidae). Meanwhile, the other two species, Amblyseius sp. (Family Phytoseiidae) and Cheletogenes ornatus (Canestrini & Fanzago) (Family Cheyletidae) were predators. Unidentified mites were Family Tydeidae and Winterschmidtiidae. According to Regulation No. 31 of 2018, P. citri and Ph. oleivora are quarantine pest. T. bilobatus is firstly reported in Indonesia.

Acaricide resistance in Panonychus citri and P. ulmi (Acari: Tetranychidae): Molecular mechanisms and management implications

The European red mite, Panonychus ulmi (Koch), and the citrus red mite, P. citri (McGregor) (Acari: Tetranychidae), are destructive mite pests in pome/stone fruit orchards and citrus groves, respectively, the management of these two spider mites species has relied largely on the use of synthetic acaricides. However, frequent, long-term use of acaricides has caused rapid development of resistance in P. ulmi and P. citri populations worldwide. Levels of resistance in P. ulmi and P. citri are exceeded only by that in the two-spotted spider mite, Tetranychus urticae Koch. Recent research on T. urticae has provided new insights into the molecular mechanisms of acaricide resistance. The molecular basis of resistance in P. ulmi and P. citri populations has been less thoroughly studied. In this brief review, the current understanding of the molecular mechanisms of toxicokinetic and toxicodynamic resistance of P. ulmi and P. citri to acaricides, as well as implications of the findings for the resistance management, are discussed.