Effects of deficit irrigation on tomato and eggplant and their infection with the root-knot nematode under controlled environmental conditions

Mohawesh, Osama; Karajeh, Muwaffaq R.

doi:10.1080/03650340.2013.871385

Cited by 14 publications

(11 citation statements)

References 19 publications

(22 reference statements)

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“…Several factors can affect the results of a challenge between pathogen and host. Biological factors such as inoculant virulence, seedling development, substrate composition, inoculation conditions, greenhouse humidity, temperature and solar irradiation, may be considered (Hua, 2013;Mohawesh;Karajeh, 2014;Carvalho et al, 2015;Özalp;Devran, 2018). In addition to standardizing the conditions of the biological tests, the principles of agricultural experimentation were considered to interpret all these factors together, as effects of the environment.…”

Section: Resultsmentioning

confidence: 99%

Resistance of new Coffea canephora clones to root-knot nematode (Meloidogyne incognita) in the western amazon

Rudnick

Junior

Fernandes

et al. 2020

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Root-knot disease is among the main diseases affecting coffee crop. The plant selection to the development new resistant cultivars is among one the most efficient methods of control. The present work aimed to quantify the resistance responses of Coffea canephora clones to root-knot nematode Meloidogyne incognita in the Western Amazon. For this, 17 previously selected clones were evaluated in three experimental trials, carried out in the municipalities of Ji-Paraná and Porto Velho, Rondônia. The resistance to root-knot nematodes M. incognita were evaluated by the numbers of gall in the roots (NG) and by the reproductive factor (RF). The resistance response was also interpreted according the genetic diversity of the clones based in their morphological traits. The clones BRS3210, C12, BRS2314, BRS3137 and BRS1216 are resistant to M. incognita with RF of 0.34, 0.62, 0.79, 0.86 and 0.98, respectively. BRS3213, C125, C15, BRS2336, BRS3220 and C09 clones were classified as susceptible, with RF of 1.93, 1.95, 2.00, 2.31, 2.32 and 2.35. The BRS3193, C160 and BRS2357 clones were classified as very susceptible, with RF values of 3.03, 4.41 and 5.82, respectively. The clustering based on the genetic diversity of morphological traits indicated that genotypes more similar to the Robusta botanic variety had lower RF. The hybrid plants showed intermediate degrees of resistance indicating the segregation for the character of the M. incognita resistance. The clones BRS3210, C12, BRS2299, BRS2314, BRS3137 and BRS1216 expressed resistance responses to M. incognita with potential for growing resistant genotypes in the Western Amazon.

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Section: Resultsmentioning

confidence: 99%

Resistance of new Coffea canephora clones to root-knot nematode (Meloidogyne incognita) in the western amazon

Rudnick

Junior

Fernandes

et al. 2020

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“…The DI levels decreased M. incognita in sugarbeet accompanied by a small reduction in root and sugar yields and sugar percent at the 75% irrigation level. DI can be applied to improve the effectiveness of the present control strategies to control root-knot nematodes (Jatala, 1985;Noling andBecker, 1994 andMohawesh andKarajeh, 2014) and increase WUEs. Prot (1979) reported that the J 2s of M. javanica accumulates most highly at the highest moisture content along a soil moisture gradient.…”

Section: Data Inmentioning

confidence: 99%

“…Soil moisture is an important factor affecting nematode development and infection (Wallace, 1963;Duncan et al, 1998 andHunter 2000). Increasing water stress decreases the water potential (from 1 to 10 bars) around root-knot nematode, M. javanica, which reduces the percentage of eggs hatching and increases the percentages of second stage juveniles mortality (Mohawesh and Karajeh, 2014). For coping with water shortage and scarce supplies, deficit irrigation, defined as application of water below the full requirement of the crop, is an important tool that achieves the goal of reducing the amount of water required for irrigation.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Deficit Irrigation Effects on Sugarbeet Productivity and Control of Root- knot Nematode, Meloidogyne incognita Infection

Maareg¹,

El-Gindi²,

Agami³

et al. 2018

Egyptian Journal of Agronematology

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Water shortages have increased growers interest to investigate the effects of deficit irrigation (DI) levels, i.e. 25, 50 and 75% of irrigation water requirement (IWR) compared with the full irrigation level (100 % of IWR) on sugarbeet productivity and on final population size (p f) and reproduction factor (RF) of root-knot nematode, Meloidogyne incognita, as well as on water use efficiency (WUE) at the end of growing season, under greenhouse conditions. Results showed that DI at the levels of 25, 50, and 75% of IWR decreased significantly yield characters (root and gross sugar yields) and sugar percent of sugarbeet, and increased WUE compared to full irrigation level (100%) treatment, without significant difference between 75 and 100% DI levels in root yield. The yield characters were greatly reductions at DI levels of 25 and 50% of IWR. Among the irrigation levels treatments, WUE was lowest in the 100% irrigation level and highest in the 25% irrigation level. Also, the results indicated that the p f and RF were significantly lower at irrigation levels of 25, 50, and 75% than 100% level. The 75% irrigation level caused minor reductions in root yield, gross sugar yield and sugar percent, but significantly reduced nematode infection (p f and RF) compared to 100% irrigation level. Thus, deficit irrigation to level of 75% of IWR can be utilized to the management of root-knot nematode, M. incognita infection without significant reduction in sugarbeet yields.

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“…Drip irrigation may have the ability to reduce soil moisture-sensitive plant diseases and pests (Shin 2005 andKarajeh 2013). Also, soil moisture considered as one of the most important factor which can affect nematode population and infection (Hunter 2000: andSurega andRamakrishnan 2017).…”

Section: Introductionmentioning

confidence: 99%

“…Also, soil moisture considered as one of the most important factor which can affect nematode population and infection (Hunter 2000: andSurega andRamakrishnan 2017). Moreover, increasing water stress can increases the second larval stage mortality and reduces the eggs hatchability of M. javanica (Mohawesh & Karajeh 2013). However, this is may be related to a particular hosts and particular localities (Norton, 1978).…”

Section: Introductionmentioning

confidence: 99%

Fluctuation of Nematode Populations in some Vegetable Hosts under Drip and Conventional Irrigation Systems

Taha

2020

Journal of Plant Protection and Pathology

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Water shortages have increased Egyptian growers interest towards drip irrigation. Conventional and drip, are two types of irrigation systems which wereselected to investigate their effect on the fluctuation of the populations of some plant parasitic nematodes on growth of different vegetable host plants: tomato (Lycopersicon esculentum), eggplant (Solanum melongena), peppers (Capsicum annum), cucumber (Cucumis sativus), and cowpea (Vigna sinenses). The predominant genera of plant parasitic nematodes recovered from soil samples (Pi & Pf) were Meloidogyne, Helicotylenchus, Pratylenchus, Paratylenchus, Rotylenchulus, Hoplolaimus, Tylenchorhynchus, and Xiphinema. On the whole the results showed that, Meloidogyne and Pratylenchus were the most common plant parasitic nematode in the plant hosts (cucumber tomato eggplant peppers cowpea) and the nematode population were lesser in drip irrigated plants (97.3, 69.0, 87.0, 81.0, 83.3 and 71.3, 46.7, 69.7, 59.0 63.0) respectively, than those of conventional irrigation (104.3, 83.7, 93.0, 85.7, 88.0 and 75.3, 68.0, 80.3, 64.0, 72.3) respectively. We can conclude that, the drip irrigation system can be used as a Strategy of nematode pests in combination with different strategies without greatly affecting on the crop growth.

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Effects of deficit irrigation on tomato and eggplant and their infection with the root-knot nematode under controlled environmental conditions

Cited by 14 publications

References 19 publications

Resistance of new Coffea canephora clones to root-knot nematode (Meloidogyne incognita) in the western amazon

Resistance of new Coffea canephora clones to root-knot nematode (Meloidogyne incognita) in the western amazon

Evaluation of Deficit Irrigation Effects on Sugarbeet Productivity and Control of Root- knot Nematode, Meloidogyne incognita Infection

Fluctuation of Nematode Populations in some Vegetable Hosts under Drip and Conventional Irrigation Systems

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