The Asian Citrus Congress-2023, held in Nagpur, India from October 28th to 30th, celebrated a historic moment where over 300 delegates from 16 countries united to advance the field of citriculture. Organized by the ICAR-Central Citrus Research Institute (CCRI) in collaboration with the Indian Society of Citriculture (ISC), APAARI (Asia-Pacific Association of Agricultural Research Institutions) from Thailand, and the Korean Society for Citrus and Subtropical Climate Fruits, South Korea, this groundbreaking congress revolved around the theme, "Advancing Citriculture for Agro-economic Prosperity."

The event opened with Shri Nitin Gadkari, Honourable Union Minister for Road Transport & Highways, Government of India, serving as the Chief Guest. In his inaugural address, Shri Nitin Gadkari praised the pivotal role played by ICAR-CCRI in producing disease-free citrus planting material, emphasizing the necessity for policy-level initiatives to ensure clean planting material availability, and underlining the significance of research benefiting farmers.

"When the British Empire occupied Palestine and set about implementing the Balfour declaration, the fossil fuel of the day was not coal. It was oil. Promising deposits had been located in the countries bordering the Persian Gulf, and the central industrial project of the Mandate came to be the pipeline that brought crude oil all the way from Iraq, across the northern West Bank and the Galilee, to the refinery of Haifa. The Mandate as such cannot be understood outside the deepening control over the region in the pursuit of oil; and the Mandate used oil to reallocate land from Palestinians to Jews. In his forthcoming Heat: A History, a wonderfully rich history of high temperatures and fossil fuels in the Middle East, On Barak shows, among many other things, how the Yishuv wrested citrus production from Palestinians by linking up with the most modern circuits of technology: irrigating their orchards with fossil-fuelled pumps, loading their fruits on lorries, sending them over roads to ports, offloading them onto steamers to the European market – a symbiosis with the fossil empire by which the natives could be squeezed out of their iconic citriculture. The Mandate authorities systematically privileged the building of roads between colonies. Oil-based infrastructure tilted Palestine in the direction of the settlements on the coastal plains and further towards their patrons on the other side of the ocean."

Brazil: New Tahiti lemon has superior productivity

Brazilian citriculture gains three important new materials, two varieties of orange and one of Tahiti lemon. Limão Tahiti BRS EECB IAC Ponta Firme has a productivity of 80 t/ha, 242% higher than the average for the state of São Paulo, the largest Brazilian producer, while retaining high quality levels. The BRS IAC FCC Alvorada orange tree is versatile and can be used for juice or  fresh consumption. Navelina XR is the first orange tree resistant to the bacterium that causes yellowing (citrus variegated chlorosis, CVC).

The three citrus varieties are the result of research in partnership between Embrapa, the Coopercitrus Credicitrus Foundation ( FCC ) and the Sylvio Moreira Citriculture Center ( CCSM ), linked to the Agronomic Institute ( IAC ).

Source.

floraculturagic || arborculturagic || aquaculturagic

piscisculturagic || citrusculturagic || vitisculturagic

apisculturagic || avisculturagic

floraculturagic (flora - cultura - jick) : a gender related to floriculture: the art or science of cultivating flowers / farming flowers. this may be considered an AGRIN gender.

arborculturagic (arbor - cultura - jick) : a gender related to arboriculture: the art or science of cultivating trees. this may be considered an AGRIN gender.

aquaculturagic (aqua - cultura - jick) : a gender related to aquaculture: the art or science of cultivating aquatic produce such as aquatic plants, fish, and other aquatic animals. this may be considered an AGRIN gender.

piscisculturagic (pees - keys - cultura - jick) : a gender related to pisciculture: the art or science of cultivating or rearing fish. this may be considered an AGRIN gender.

citrusculturagic (citrus - cultura - jick) : a gender related to citriculture: the art or science of cultivating citrus fruits. this may be considered an AGRIN gender.

vitisculturagic (v - eye - tis - cultura - jick) : a gender related to viticulture: the art or science of cultivating grape vines. this may be considered an AGRIN gender.

apisculturagic (ah - pees - cultura - jick) : a gender related to apiculture: the art or science of cultivating bees or beekeeping. this may be considered an AGRIN gender.

avisculturagic (ah - vees - cultura - jick) : a gender related to pisciculture: the art or science of cultivating or rearing birds. this may be considered an AGRIN gender.

etymology : flora ; arbor ; aqua ; piscis ; citrus ; vitis ; apis ; avis

flags/terms created by me !

୨୧ buy us a coffee!

Citrus Canker in Sudan: Etiology and Epidemiology- Juniper Publishers

Citrus bacterial canker disease (CBCD) caused by Xanthomonas citri subsp. citri (Xcc), is one of the most destructive diseases to the citrus plantations worldwide, newly invaded, and threatened citriculture in Sudan. Occurrence and spread of CBCD in Sudan have been surveyed in two states, representing the main citrus producing states in Sudan. Field surveys were conducted during January 2015 in commercial citrus orchards and nurseries at the two locations. Symptomatology, host range study, physiological and biochemical characterization of the isolated pathogen were also carried out to obtain important clues on pathogen identification. In addition, the pathogenicity test was performed on detached leaves of several selected citrus varieties such as grapefruit, orange and lime to establish the identity of the presumptive Xanthomonas citri subsp. citri (Xcc). The disease on lime orchards in northern and southern Sawagi (Kassala State) recorded a disease incidence of 66.6% and 18%, respectively. In nurseries, the disease incidence attained 51.7% and 53.6% in northern Sawagi and southern Sawagi, respectively, while in Khartoum State the disease was unexpectedly detected at a considerably high incidence of 45%, but at only one nursery, no disease detected in Khartoum State` s orchards during these surveys. Lime trees displayed typical symptoms of CBCD, but nearby canker-susceptible citrus species, such as grapefruit (C. paradisi) and sweet orange (C. sinensis) were unaffected. Typical symptoms of CBCD were noticed on leaves, twigs, fruits and branches. The pathogenicity tests of the recovered canker isolates induced typical lesions on local lime only, but produced atypical lesions on other citrus varieties. All the biochemical and physiological characteristics obtained from the re-isolations were also indicative of the presence of Xcc. As important perspectives, it appeared that these citrus canker isolates were distinctive and specific on lime. They were very similar to the pathotype and they attained an epidemic level in Kassala State.

Keywords:  Citrus bacterial canker; Severity scale; Pathogenicity; Pathotype

    Introduction

Citrus (Rutaceae family) is considered as one of the most important commercial fruit crops. Sudan, with all its vast area, wide range of soils, diverse climatic conditions, and ample water resource possesses great potentials for citrus production. At present, the commercial citrus production in Sudan spreads all over the country, mainly along the narrow strips of alluvial soils of the main River Nile, Blue Nile, and White Nile. In addition, it is also extending to the banks of annual valleys and rivers and upper terraces in which underground water is available for irrigation [1]. The important citrus groups have grown commercially in Sudan include: Small fruited acid lime (Citrus aurantifolia Swingle), grapefruit (C. paradise Macfad), sweet orange (C. cinensis Osbeck), and Mandarins (C. reticulate Blanco). Each group is composed of several varieties and selections (Ali-Dinar, 1984). The total area of citrus production in Sudan is estimated around 171,192 hectares with a total production of 2.3 million tons and exportation amounting to 9.8 thousand tons, for years (2010-2013) (National Horticulture Administration, 2013). Therefore, the national strategy of citrus expansion is directed towards the large national schemes, e.g. Gezira, Suki, Rahad and the Blue Nile Schemes in the Central Clay Plain [2]. Although the citrus crop is kept in great esteem, yet its present status is threatened by several problems, including low productivity caused by diseases. The citrus tree is attacked by several diseases in Sudan like gummosis, citrus decline, Tristeza virus, and virus-like diseases [3]. More recently a new aggressive disease was discovered in Gadaref State on lime with typical symptoms of citrus bacterial canker [4].

Citrus bacterial canker disease (CBCD) caused by Xanthomonas citri subsp. citri (Xcc) is probably one of the most devastative to the citrus plantations at the global level. Citrus canker is thought to have originated from South East Asia or India and spreading in more than 30 countries throughout the world, including countries in the Middle East, the Horn of Africa, and some other countries in South and West Africa [5,6]. Citrus canker disease is occurrence regularly on several citrus cultivars in varying degrees of incidence depending on the climatic conditions. The bacterium causes different symptoms ranging from pustules to necrotic lesions consisting of erumpent corky tissue surrounded by water soaked tissues and yellow halo on leaves, stems, and fruits [7-12]. As such, disease severity on susceptible variety results in defoliation, dieback, premature fruit drop, and blemished fruit, which consequently decrease fruit production and market value [13]. Also, the citrus canker has had a serious impact on local citrus industries whenever infections have been detected. As a result, millions of dollars are spent annually on prevention, quarantine, eradication programs, and chemical control [14]. Three main types of citrus canker bacteria have been identified, which possess variations in host range among citrus varieties.

The pathotype A (the Asiatic type of canker, Xcc) is the most destructive and widespread variant of the disease among most commercial citrus varieties and their relatives. The pathotypes B and C of citrus canker are caused by Xanthomonas fuscans subsp. Aurantifolii. Cancrosis B and cancrosis C are limited in host range and are geographically restricted to South America [15]. Certain distinctive groups within pathotype have also been identified which have restricted host range. For instance, pathotype strains with a host range restricted only to Mexican lime (Citrus aurantifolia) but not infecting citrus canker susceptible species, grapefruit and sweet orange, have been described in several countries in The Middle East and also reported from Thailand, Mali, Ethiopia, and Burkina Faso (Derso et al., 2009). Recently Elhassan et al., [4] reported the presence of CBCD for the first time on lime trees in Gadaref State (Sudan) depending on the visual symptoms, pathogenicity tests, and some biochemical characteristics of the causal bacterium isolate, which closely resemble the atypical Asiatic form of CBC . Now the disease seems to flare-up and spread to most of the citrus groves in Gadaref and Kassala states. It was also observed to spread in nurseries of Khartoum North. In general, the environmental conditions, particularly the climate are conducive to CBCD development in the remaining areas of all southeastern region of Sudan. Apparently, a high infection potential dominates the epidemiological stage in this region. The study was conducted to survey the natural occurrence, citrus varietal susceptibility, symptomatology, disease severity and extent of spread of citrus bacterial canker disease (CBCD) in commercial citrus orchards and nurseries in Kassala and Khartoum states, it was also aimed to confirm the identity of the causal pathogen depending on phenotypical characteristics and the pathogenicity of the bacterium isolates.

    Material and Methods

Field survey and disease pathometry

The survey was carried out in January 2015 after the end of the rainy season in two different locations (Kassala and Khartoum states). In Kassala State, the survey was conducted in North Sawagi and South Sawagi areas, while in Khartoum State, the survey was conducted at Shambat in Khartoum North and at Almogran in Khartoum. The survey included inspection of two main citrus planting types namely, commercial orchards and nurseries. 6 orchards and nurseries per location at Kassala State and 4 from each were inspected at Khartoum State. Two hundred lime trees, in addition to 30-100 orange, mandarin, and grapefruit trees, whenever available, were examined in the same orchard inspected for the presence of CBCD. Also, all nursery stocks found at the selected sites were examined for CBCD. The main objectives of the survey were to discover the occurrence and extent of the spread of citrus bacterial canker disease (CBCD) and study its Symptomatology. Close visual observations were made and diseased plant tissues including, leaves, twigs, and fruits were collected from symptomatic plants. Disease development was then evaluated according to the following pathometry:

Disease incidence

The disease incidence (DI) was recorded for each planting type at these locations and the data were arranged and statistically analyzed. The calculations were based on the following formula:

DI (%) = No.of infected plants x 100 / total No. of plants inspected

Disease severity

i. In orchards

Ten trees were randomly selected at each orchard. Diagnostic symptoms were examined on leaves, fruits, twigs, branches, and the main tree stem. In severe cases, defoliation, twig dieback, and fruit drop were also considered. Disease severity (DS) was estimated at specified dates based on a 0-5 disease severity scale (SS) as the fallows:

Scale 0: non-symptomatic trees. Scale 1: leaf symptoms on few (1-3) branches, Scale 2: leaf symptoms in up to 10% of branches. Scale 3: leaf symptoms in >10%-25% of the branches plus mild symptoms on fruits and twigs. Scale 4: >25% -50% of the tree canopy showing clear canker symptoms on leaves, fruits, twigs, in addition to defoliation and die-back. Scale 5: > 50% of the tree canopy showing prominent canker symptoms on leaves, twigs, fruits, main branches, and trunks. Also, severe defoliation and dieback are evident.

ii. In nurseries

Disease severity was estimated based on a 0-5 disease severity scale (SS) as follow:

Scale 0: non-symptomatic nursery plants. Scale 1: leaf symptoms on few (1-3) leaves. Scale 2: leaf symptoms on 4 to 9 leaves Scale 3: leaf symptoms on 10 to 15 of the leaves. Scale 4: leaf symptoms>15 leaves to 50% of the foliage. Scale 5: > 50% of foliage showing canker symptoms. Besides, some individual lesions on twigs and stems are evident.

The disease severity (DS) was then calculated as follow:

3- Percent disease index (DX): It was calculated according to the fallowing formula:

DX (%) = DS x 100/ max SS

The recorded data on disease pathometry (disease incidence and disease index) were transformed using arcsine transformation, before being subjected to analysis of variance (ANOVA), as described by Gomez and Gomez (1984) for the factorial experiment in a completely randomized design. EXCEL computer package version 2010 was applied. Then the treatments means were compared using the least significant difference (LSD).

Symptomatology

Symptoms development of citrus bacterial canker infection was closely examined during the survey of the disease in each of chosen orchards and nurseries. Different parts of symptomatic trees were examined for canker lesions namely, leaves, twigs, fruits, branches, and stems. Also, leaf defoliation and die-back in twigs and branches were also observed, recorded, and photographed. The symptoms were closely noticed and described.

Isolation and purification of Xanthomonas axonopodis pv. citri

Isolation and purification of the bacteria from infected leaves, fruits, and twigs were conducted following the National Diagnostic Protocol for Asiatic Citrus Canker [16].

Pathogen identification

Morphological, biochemical and physiological characteristics of bacterium isolates including gram staining reaction, growth on YDC medium, starch hydrolysis, growth at 36 oC and 40 oC test, motility test, anaerobic growth, KOH Solubility test, (1-3%) NaCl Tolerance, gelatin liquefaction test, Tween 80 lipolysis and catalase test have been conducted according to Verniere et al [17], Goszczynska et al [18] and Kidist [19].

Pathogenicity Test

Pure isolates of the bacterium were grown on nutrient agar plates and incubated at 28℃ for 24 h. Bacterial cells were then harvested in sterile distilled water by using a sterile glass rod and the bacterial suspension was adjusted finally to give 1.0 × 108 CFU/mL using a UV spectrophotometer at a wavelength of 600 nm (Sunrise Spectrophotometer, Tecan). Immature fully expanded ‘Mexican’ lime and ‘Marsh’ grapefruit, Valencia orange, Eureka and Mandarin leaves were sterilized by soaking for 2 min in 1% sodium hypochloritae followed by rinsing in sterile distilled water. Leaves were placed on the surface of 1% water agar with their abaxial surfaces facing upwards. Six wounds were made per leaf with a needle and droplets (10 microliters) of bacterial suspensions were placed on each wound. Leaves were incubated at 280C with a photoperiod of 12 h light and 12 h dark for 2 weeks.

    Results

Field survey and disease pathometry

The survey conducted in commercial citrus orchards and nurseries in both Kassala and Khartoum States indicated the occurrence of citrus bacterial canker (CBC) on lime (Citrus aurantifolia Swingle), but not on the other surveyed citrus varieties. While the typical disease symptoms in Kassala State were evident in both citrus orchards and the nursery lime seedlings, they were only displayed in the nursery stock and absent in orchards in Khartoum State. The combined disease development of the two planting types (orchards and nurseries) in Kassala State was consistently significantly (P ≤ 0.05) higher in Sawagi North compared to that in Sawagi South (Table 1). Separately, CBC development on each planting types was as follows:

i. In orchards

The results of the disease Incidence, severity, and disease index are shown in Table 1. The disease was recorded in all surveyed commercial orchards in Kassala State. While Sawagi North recorded significantly (P ≤ 0.05) higher CBC incidence (66.6%) comparatively low disease level was recorded in Sawagi South (18%). Similarly, more severe CBC (3 fold as much) was encountered in Sawagi North with a disease index, which was significantly (P ≤ 0.05) higher (64.9%) than that recorded in Sawagi South (25.3%). However, the disease was not detected in citrus orchards in Khartoum State.

ii. In nurseries

Citrus bacterial canker disease was recorded in all the surveyed nurseries in both locations of Kassala State (Table 1). North Sawagi recorded 51.7%, 2.1 and 52% CBC incidence, severity, and disease index, respectively. Comparable CBC development was noticed in South Sawagi indicating 53%, 1.8 and 51.5% incidence, severity, and disease index respectively. However, In Khartoum State, the disease was detected in 45% of lime plants in only one nursery in Khartoum North with an overall mean disease incidence of 12.6%, moreover, 0.7 and 21.2% CBC severity and disease index were recorded respectively.

Symptomatology

Typical symptoms were observed upon examination of 'local' lime trees infected with CBC (Figure 1). These characteristic external symptoms were cankerous pustules and necrotic lesions consisting of raised or erumpent corky tissues on leaves, fruits, twigs, thorns, and branches. The canker lesions on leaves and fruits were surrounded by a water-soaked ring and often with a prominent yellow margin. Also, lesions with a shot hole-like appearance were found. Unusual canker lesions were also commonly encountered on the leaves, which were associated with mechanical (i.e. thorn) and leaf miner damages. Many of these canker lesions coalesced to form elongate or blotchy corky patterns on the affected leaves. Frequently, severe infections were encountered in some surveyed orchards which largely covering. In severe cases of foliage infection, extensive leaf defoliation and die-back symptoms were observed. The fruits were particularly susceptible to the canker pathogen, usually developing severe canker lesions with crater-like centers and severe gummy exudates. Which ultimately led to piles of fallen fruits underneath the affected lime trees. In nurseries, severe canker symptoms were also observed on leaves, twigs, and stems (Table 2).

Pathogenicity test on detached leaves:

The typical canker lesions observed on infected lime leaves were reproduced only on lime in response to the pathogenicity test performed on detached leaves. On day 7 post-inoculation small white callus developed on lime leaves at the six inoculation points (Plate 12A). Advanced callus formation gradually changing to tan color lesions surrounded by water-soaked area and yellow halo were produced on lime leaves as time progressed to 20 days after inoculation (Plate 13A). A typical symptom of flat lesions developed on sour orange, ʻValenciaʼ orange, and ʻBaladiʼ mandarin (Plates 13B, 14A, 14B). However, ʻEurekaʼ lemon, ʻMerkisʼ mandarin, and grapefruit (Red blush and March) failed to produce any symptoms (Plates 15 and 16) similar to the control treatment inoculated with sterile distilled water (Figure 2).

    Discussion

The citrus bacterial canker disease (CBCD) has become established and attained an epidemic status in different parts of Sudan. Although the disease has not been known before 2013, its emergence in autumn 2014 was somewhat overwhelming and so intriguing. It infested the main citrus growing areas of Kassala State which represents the most important commercial producing region in the country, particularly the North Sawagi and the South Sawagi localities recording considerably high CBCD levels (incidence of 66.6% and 18% and disease indexes of 64.9% and 25.3%, respectively). This outbreak is believed to have been caused through a long-distance spread, which more often occurs with the movement of infected propagating materials such as nursery stocks, budwood or budded trees, or through contaminated environmental factors such as nursery workers carrying the bacteria on hands, clothes, and contaminated budding tools [11]. Alternatively, the spread of canker bacteria may have occurred during strong wind-driven rains coming from Gadaref State or across the borders from Ethiopia (Derso et al., 2009) or Saudi Arabia [6]. The fact that CBCD was first detected in some Gadaref State localities only a year before it appeared in Kassala, would indicate that the path of the disease was most likely: Ethiopia- Gadaref then Kassala. This could be substantiated by the discovery of the disease several years ago in Ethiopia (Derso et al., 2009) and only recently in commercial citrus orchards and nurseries of Gadaref State [20]. The bacterial inoculum might have been present in Kassala in the same year of the discovery of CBCD in Gadaref, but it has been overlooked since the pathogen is known to survive epiphytically at low population levels on citrus hosts without symptoms development, and in association with other weeds and grass hosts [21,22]. However, the bacteria survive primarily in naturally occurring lesions. Cankerous leaves, twigs, and branches constitute the main source of the inoculum, but the prominent occurrence of lesions is seasonal, coinciding with periods of heavy rainfall, moderate temperature, and growth flushes. The pathogen can survive up to 6 months or more in the infected leaves [23] and up to 76 months on diseased twigs [24].

In comparison, the greater CBCD development in the Northern Sawagi over that in the Southern Sawagi can be attributed mainly to the topographical factors of Kassala State heights (≤ 850 m a.s.l). These heights may retard the wind speed in South Sawagi, while in North Sawagi orchards on the other side exposed to wind-driven that may carry the bacterial inoculum. Also, the variation of disease pathometry may have a direct relation to differences in the prevailing cropping systems in the two locations. For instance, the mixed plantation of lime /mango system makes southern Sawagi trees less infected because of the windbreak effect created by mango trees. This is not surprising since cankers develop more severely on the side of the tree exposed to wind-driven rain. [25]. Although this variation in CBCD level is perceivable in the first year of the appearance of the disease, it is unlikely to persist if the locally prevailing epidemiological factors remain remarkably similar in the two locations.

On the other hand, CBCD was absent in Khartoum State, be it in commercial citrus orchards or nurseries, except in one nursery of lime seedlings in Khartoum North. This was perceivable since the prevailing environmental conditions were not conducive for CBCD development [26]. The remarkably high CBCD incidence reported in that nursery (45%), however, was believed to have resulted from a consignment of infected nursery stock brought from infested wet areas such as Kassala or Gadaref. It may constitute a potential threat, at least in localized small pockets in Khartoum State where the temperature and humidity may allow for a limited occurrence and spread of the disease. The study also demonstrated that the epidemic was naturally occurring and spreading on acid lime trees (Citrus aurantifolia) but not on other citrus varieties, even if they were close to the diseased lime trees. This strongly indicates that this citrus canker bacterial isolate is restricted to lime. The host specificity of this canker bacterium to lime was like that from Gadaref [20], which would further support the notion that it originated from Gadaref. The canker bacterium isolates which are specific to lime have also been previously reported from Maldive islands [26], Southwest Asia [5], Ethiopia (Derso et al., 2009), and the western region of Saudi Arabia [6]. The fact that the pathogenicity tests of the isolated bacterium developed characteristic lesions only upon artificial inoculation of detached leaves of lime and failed to induce any cankerous lesions typical of citrus bacterial canker (CBC) on grapefruit, sweet orange, or on other citrus varieties tested was a strong indication that the present bacterial isolate may belong to a special group of strains designated as pathotype A*. Although closely related to the ordinary A pathotype, these strains can be readily distinguished from the former, based on their atypical combination of host range and symptomatology [5]. Additional strains with similar biological behavior were reported by [7] and were also included in this distinctive group (i.e. A*). Although this bioassay has been found in both specific and sensitive diagnostic methods for CBC [8] the molecular analysis will certainly establish the correct identity of the bacterial isolates spreading in Kassala and elsewhere in Sudan. Collectively, the association and isolation of Xanthomonas sp. from symptomatic lime trees, together with the symptomatology, biochemical characterization, and pathogenicity tests strongly indicate that the currently investigated disease on lime in Kassala and Khartoum states is CBC (X. citri subsp. citri) and these lime isolates are closely related to the strains of the atypical Asiatic pathotype (Xcc- A*) [27-32].

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ASSESSMENT OF AGRICULTURAL INFORMATION ON CITRUS IMPROVED TECHNOLOGIES

ASSESSMENT OF AGRICULTURAL INFORMATION ON CITRUS IMPROVED TECHNOLOGIES PRODUCTION AND MARKETING IN BENUE STATE

   Citrus fruits constitute vital fruit crop with highest value in terms of international trade. The market for citrus fruit consist of the fresh fruit market and the processed citrus fruits market which involves mainly of  orange juice. Oranges account for most of the citrus production but significant quantities of pomeloes, grapefruits, lemons and limes are also grown. According to (UNCTAD), the United Nations Conference on Trade and Development, the growth in the production of citrus is attributed predominantly to high consumer demand and preference for healthy foods,  improvements in transportation and packaging, rising incomes and increase in cultivation areas. Changes in production were projected for the period of year 2000 to 2010 since high production levels have slowed the rate of new plantings. The New production strategy shows that the Productivity of citrus groves can be reserved at pre-Huanglongbing levels through a three pronged strategy with the aim of giving the greatest yields for the lowest costs. This is necessary as a result of the increased per acre cost of caretaking brought upon by Huanglongbing infection. The commercial citrus caretaker is therefore forced to spray his/her block of citrus several more   times a year than normal, higher cost. Consequently the cost price of citrus per pound increase considerably .Therefore the price per pound of citrus must continue to increase in other for the business of citrus to remain profitable due to disease pressure.

 Currently the use of Foliar fertilizers are spread on citrus trees at considerably higher rates than before for high yield production. Pesticide application timing, and pesticide choice is required for production efficacy.

  Due to citrus green disease, the production of citrus nurseries in commercial quantities were relocated indoors so as provides clean citrus trees for the planting of citrus groves.

 Citriculture  production  practices which constitute the  new best management practices for commercial citrus growers against the citrus greening disease fight include vector control, foliar nutrition, and certified young trees .The research therefore  proffer an  Assessment of agricultural information on citrus improved technologies production and marketing in Benue state

  1.2  Statement of the Problem

 Citrus fruits constitute vital fruit crop with highest value in terms of international trade. The markets for citrus fruit consist of the fresh fruit market and the processed citrus fruits market which involves mainly of orange juice. Oranges account for most of the citrus production but significant quantities of pomeloes, grapefruits, lemons and limes are also grown. According to (UNCTAD), the United Nations Conference on Trade and Development, the growth in the production of citrus is attributed predominantly to high consumer demand and preference for healthy foods,  improvements in transportation and packaging, rising incomes and increase in cultivation areas. However the economic cost of implementing the new production method for citrus commercial quantities is high. This is due to the increasing cost of pesticides spray to combat the deadly citrus disease Huanglongbing (HLB), called citrus greening. Currently the use of Foliar fertilizers are spread on citrus trees at considerably higher rates than before for high yield production. Pesticide application timing, and pesticide choice is required for production efficacy. The problem of the research therefore centers on the Assessment of agricultural information on citrus improved technologies production and marketing in Benue state.

  1.3  Objectives of the Study

 To proffer an Assessment of agricultural information on citrus improved technologies production and marketing in Benue state

  Citrus fruits constitute vital fruit crop with highest value in terms of international trade. The market for citrus fruit consists of the fresh fruit market and the processed citrus fruits market which involves mainly of orange juice. Oranges account for most of the citrus production

  1.4  Research Questions

 What is citrus production?

       What is the agricultural information on citrus improved technologies production and marketing?  

      What is the agricultural information on citrus improved technologies production and marketing       in Benue State?

   1.5  Significance of the Study

 The studies proffer an Assessment of agricultural information on citrus improved technologies production and marketing in Benue state

  1.6  Research Hypothesis

 Ho Citrus improved technologies production and marketing in Benue state is not effective

  Hi   Citrus improved technologies production and marketing in Benue state is effective

   1.7  Scope of the Study

 The study focuses on the Assessment of agricultural information on citrus improved technologies production and marketing in Benue state

  1.8  Limitations of the Study

 The study was confronted by some constraints including logistic and geographical factors

 1.9  Definition of Terms

 CITRUS FRUIT

 Citrus fruits constitute vital fruit crop with highest value in terms of international trade.The market for citrus fruit consist of the fresh fruit market and the processed citrus fruits market which involves mainly of orange juice. Oranges account for most of the citrus production but significant quantities of pomeloes, grapefruits, lemons and limes are also grown.

 EDITOR SOURCE:    https://researchcub.info/department/paper-3811.html

It’s Citriculture Time! Bearss Seedless Lime Tree, buddhas hand, Yuzu, Kiefer lime, & Grapefruit. One little kumquat (at Cloverdale, California) https://www.instagram.com/p/CYxADdbvKeM/?utm_medium=tumblr

The war on Gaza is hitting on all fronts:

"Citriculture largely disappeared from Gaza in the second half of the 20th century, due in large part to Israeli bulldozing of the orange groves."

Read on here: https://jewishcurrents.org/the-ecological-war-on-gaza/

Join the struggle for justice in Palestine with our sister foundation: https://culturesofresistance.org/palestine-crisis

Molecule Used in Human Health Is Effective for Control of Citrus Diseases

Molecule Used in Human Health Is Effective for Control of Citrus Diseases

An anti-oxidant molecule called N-acetylcysteine (NAC), used in human health as a mucolytic or “cough syrup” to clear the airways, has resulted in the development of products that effectively control crop diseases such as citrus variegated chlorosis, citrus canker, and citrus greening or Huanglongbing (HLB).

In field tests, both plants with CVC and healthy plants treated with NAC-based products…

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Brazilian floods lead to heavy losses for small citrus growers

As the full extent of the damage from the recent heavy rain and flooding in the South of Brazil is being totalled, early estimates show over $1 billion in damages suffered by rural citrus growers in the affected Rio Grande do Sul province. Sadly, it has also come to light that some smaller citrus growers and their workers have died due to mudslides.

"It is estimated that losses will reach 70% for the varieties of Caí and Ponkan mandarins," said Ing. Paulo Lipp, from the Citriculture Sector Chamber of the Secretariat of Agriculture, Livestock, Sustainable Production and Irrigation (Seapi).

Lipp says the preliminary surveys shows severe damage to thousands of small farms in the municipality of Montenegro and across the most affected province of Rio Grande do Sul. "A preliminary survey identified 7,854 properties affected by floods across the state of Rio Grande do Sul in 58 municipalities, most of them classified as small producers. In the citrus region, around a thousand citrus growers were affected, seeing major losses either due to flooding or the fall of fruits, mainly tangerines, that were ready to harvest due to three consecutive weeks of rain. Furthermore, in the Serra region, where viticulture is concentrated, hundreds of properties were hit by landslides."

Continue reading.

The cultivation of citrus fruit.

Citrus Canker in Sudan: Etiology and Epidemiology- Juniper Publishers

Citrus bacterial canker disease (CBCD) caused by Xanthomonas citri subsp. citri (Xcc), is one of the most destructive diseases to the citrus plantations worldwide, newly invaded, and threatened citriculture in Sudan. Occurrence and spread of CBCD in Sudan have been surveyed in two states, representing the main citrus producing states in Sudan. Field surveys were conducted during January 2015 in commercial citrus orchards and nurseries at the two locations. Symptomatology, host range study, physiological and biochemical characterization of the isolated pathogen were also carried out to obtain important clues on pathogen identification. In addition, the pathogenicity test was performed on detached leaves of several selected citrus varieties such as grapefruit, orange and lime to establish the identity of the presumptive Xanthomonas citri subsp. citri (Xcc). The disease on lime orchards in northern and southern Sawagi (Kassala State) recorded a disease incidence of 66.6% and 18%, respectively. In nurseries, the disease incidence attained 51.7% and 53.6% in northern Sawagi and southern Sawagi, respectively, while in Khartoum State the disease was unexpectedly detected at a considerably high incidence of 45%, but at only one nursery, no disease detected in Khartoum State` s orchards during these surveys. Lime trees displayed typical symptoms of CBCD, but nearby canker-susceptible citrus species, such as grapefruit (C. paradisi) and sweet orange (C. sinensis) were unaffected. Typical symptoms of CBCD were noticed on leaves, twigs, fruits and branches. The pathogenicity tests of the recovered canker isolates induced typical lesions on local lime only, but produced atypical lesions on other citrus varieties. All the biochemical and physiological characteristics obtained from the re-isolations were also indicative of the presence of Xcc. As important perspectives, it appeared that these citrus canker isolates were distinctive and specific on lime. They were very similar to the pathotype and they attained an epidemic level in Kassala State.

Keywords:  Citrus bacterial canker; Severity scale; Pathogenicity; Pathotype

    Introduction

Citrus (Rutaceae family) is considered as one of the most important commercial fruit crops. Sudan, with all its vast area, wide range of soils, diverse climatic conditions, and ample water resource possesses great potentials for citrus production. At present, the commercial citrus production in Sudan spreads all over the country, mainly along the narrow strips of alluvial soils of the main River Nile, Blue Nile, and White Nile. In addition, it is also extending to the banks of annual valleys and rivers and upper terraces in which underground water is available for irrigation [1]. The important citrus groups have grown commercially in Sudan include: Small fruited acid lime (Citrus aurantifolia Swingle), grapefruit (C. paradise Macfad), sweet orange (C. cinensis Osbeck), and Mandarins (C. reticulate Blanco). Each group is composed of several varieties and selections (Ali-Dinar, 1984). The total area of citrus production in Sudan is estimated around 171,192 hectares with a total production of 2.3 million tons and exportation amounting to 9.8 thousand tons, for years (2010-2013) (National Horticulture Administration, 2013). Therefore, the national strategy of citrus expansion is directed towards the large national schemes, e.g. Gezira, Suki, Rahad and the Blue Nile Schemes in the Central Clay Plain [2]. Although the citrus crop is kept in great esteem, yet its present status is threatened by several problems, including low productivity caused by diseases. The citrus tree is attacked by several diseases in Sudan like gummosis, citrus decline, Tristeza virus, and virus-like diseases [3]. More recently a new aggressive disease was discovered in Gadaref State on lime with typical symptoms of citrus bacterial canker [4].

Citrus bacterial canker disease (CBCD) caused by Xanthomonas citri subsp. citri (Xcc) is probably one of the most devastative to the citrus plantations at the global level. Citrus canker is thought to have originated from South East Asia or India and spreading in more than 30 countries throughout the world, including countries in the Middle East, the Horn of Africa, and some other countries in South and West Africa [5,6]. Citrus canker disease is occurrence regularly on several citrus cultivars in varying degrees of incidence depending on the climatic conditions. The bacterium causes different symptoms ranging from pustules to necrotic lesions consisting of erumpent corky tissue surrounded by water soaked tissues and yellow halo on leaves, stems, and fruits [7-12]. As such, disease severity on susceptible variety results in defoliation, dieback, premature fruit drop, and blemished fruit, which consequently decrease fruit production and market value [13]. Also, the citrus canker has had a serious impact on local citrus industries whenever infections have been detected. As a result, millions of dollars are spent annually on prevention, quarantine, eradication programs, and chemical control [14]. Three main types of citrus canker bacteria have been identified, which possess variations in host range among citrus varieties.

The pathotype A (the Asiatic type of canker, Xcc) is the most destructive and widespread variant of the disease among most commercial citrus varieties and their relatives. The pathotypes B and C of citrus canker are caused by Xanthomonas fuscans subsp. Aurantifolii. Cancrosis B and cancrosis C are limited in host range and are geographically restricted to South America [15]. Certain distinctive groups within pathotype have also been identified which have restricted host range. For instance, pathotype strains with a host range restricted only to Mexican lime (Citrus aurantifolia) but not infecting citrus canker susceptible species, grapefruit and sweet orange, have been described in several countries in The Middle East and also reported from Thailand, Mali, Ethiopia, and Burkina Faso (Derso et al., 2009). Recently Elhassan et al., [4] reported the presence of CBCD for the first time on lime trees in Gadaref State (Sudan) depending on the visual symptoms, pathogenicity tests, and some biochemical characteristics of the causal bacterium isolate, which closely resemble the atypical Asiatic form of CBC . Now the disease seems to flare-up and spread to most of the citrus groves in Gadaref and Kassala states. It was also observed to spread in nurseries of Khartoum North. In general, the environmental conditions, particularly the climate are conducive to CBCD development in the remaining areas of all southeastern region of Sudan. Apparently, a high infection potential dominates the epidemiological stage in this region. The study was conducted to survey the natural occurrence, citrus varietal susceptibility, symptomatology, disease severity and extent of spread of citrus bacterial canker disease (CBCD) in commercial citrus orchards and nurseries in Kassala and Khartoum states, it was also aimed to confirm the identity of the causal pathogen depending on phenotypical characteristics and the pathogenicity of the bacterium isolates.

    Material and Methods

Field survey and disease pathometry

The survey was carried out in January 2015 after the end of the rainy season in two different locations (Kassala and Khartoum states). In Kassala State, the survey was conducted in North Sawagi and South Sawagi areas, while in Khartoum State, the survey was conducted at Shambat in Khartoum North and at Almogran in Khartoum. The survey included inspection of two main citrus planting types namely, commercial orchards and nurseries. 6 orchards and nurseries per location at Kassala State and 4 from each were inspected at Khartoum State. Two hundred lime trees, in addition to 30-100 orange, mandarin, and grapefruit trees, whenever available, were examined in the same orchard inspected for the presence of CBCD. Also, all nursery stocks found at the selected sites were examined for CBCD. The main objectives of the survey were to discover the occurrence and extent of the spread of citrus bacterial canker disease (CBCD) and study its Symptomatology. Close visual observations were made and diseased plant tissues including, leaves, twigs, and fruits were collected from symptomatic plants. Disease development was then evaluated according to the following pathometry:

Disease incidence

The disease incidence (DI) was recorded for each planting type at these locations and the data were arranged and statistically analyzed. The calculations were based on the following formula:

DI (%) = No.of infected plants x 100 / total No. of plants inspected

Disease severity

i. In orchards

Ten trees were randomly selected at each orchard. Diagnostic symptoms were examined on leaves, fruits, twigs, branches, and the main tree stem. In severe cases, defoliation, twig dieback, and fruit drop were also considered. Disease severity (DS) was estimated at specified dates based on a 0-5 disease severity scale (SS) as the fallows:

Scale 0: non-symptomatic trees. Scale 1: leaf symptoms on few (1-3) branches, Scale 2: leaf symptoms in up to 10% of branches. Scale 3: leaf symptoms in >10%-25% of the branches plus mild symptoms on fruits and twigs. Scale 4: >25% -50% of the tree canopy showing clear canker symptoms on leaves, fruits, twigs, in addition to defoliation and die-back. Scale 5: > 50% of the tree canopy showing prominent canker symptoms on leaves, twigs, fruits, main branches, and trunks. Also, severe defoliation and dieback are evident.

ii. In nurseries

Disease severity was estimated based on a 0-5 disease severity scale (SS) as follow:

Scale 0: non-symptomatic nursery plants. Scale 1: leaf symptoms on few (1-3) leaves. Scale 2: leaf symptoms on 4 to 9 leaves Scale 3: leaf symptoms on 10 to 15 of the leaves. Scale 4: leaf symptoms>15 leaves to 50% of the foliage. Scale 5: > 50% of foliage showing canker symptoms. Besides, some individual lesions on twigs and stems are evident.

The disease severity (DS) was then calculated as follow:

3- Percent disease index (DX): It was calculated according to the fallowing formula:

DX (%) = DS x 100/ max SS

The recorded data on disease pathometry (disease incidence and disease index) were transformed using arcsine transformation, before being subjected to analysis of variance (ANOVA), as described by Gomez and Gomez (1984) for the factorial experiment in a completely randomized design. EXCEL computer package version 2010 was applied. Then the treatments means were compared using the least significant difference (LSD).

Symptomatology

Symptoms development of citrus bacterial canker infection was closely examined during the survey of the disease in each of chosen orchards and nurseries. Different parts of symptomatic trees were examined for canker lesions namely, leaves, twigs, fruits, branches, and stems. Also, leaf defoliation and die-back in twigs and branches were also observed, recorded, and photographed. The symptoms were closely noticed and described.

Isolation and purification of Xanthomonas axonopodis pv. citri

Isolation and purification of the bacteria from infected leaves, fruits, and twigs were conducted following the National Diagnostic Protocol for Asiatic Citrus Canker [16].

Pathogen identification

Morphological, biochemical and physiological characteristics of bacterium isolates including gram staining reaction, growth on YDC medium, starch hydrolysis, growth at 36 oC and 40 oC test, motility test, anaerobic growth, KOH Solubility test, (1-3%) NaCl Tolerance, gelatin liquefaction test, Tween 80 lipolysis and catalase test have been conducted according to Verniere et al [17], Goszczynska et al [18] and Kidist [19].

Pathogenicity Test

Pure isolates of the bacterium were grown on nutrient agar plates and incubated at 28℃ for 24 h. Bacterial cells were then harvested in sterile distilled water by using a sterile glass rod and the bacterial suspension was adjusted finally to give 1.0 × 108 CFU/mL using a UV spectrophotometer at a wavelength of 600 nm (Sunrise Spectrophotometer, Tecan). Immature fully expanded ‘Mexican’ lime and ‘Marsh’ grapefruit, Valencia orange, Eureka and Mandarin leaves were sterilized by soaking for 2 min in 1% sodium hypochloritae followed by rinsing in sterile distilled water. Leaves were placed on the surface of 1% water agar with their abaxial surfaces facing upwards. Six wounds were made per leaf with a needle and droplets (10 microliters) of bacterial suspensions were placed on each wound. Leaves were incubated at 280C with a photoperiod of 12 h light and 12 h dark for 2 weeks.

    Results

Field survey and disease pathometry

The survey conducted in commercial citrus orchards and nurseries in both Kassala and Khartoum States indicated the occurrence of citrus bacterial canker (CBC) on lime (Citrus aurantifolia Swingle), but not on the other surveyed citrus varieties. While the typical disease symptoms in Kassala State were evident in both citrus orchards and the nursery lime seedlings, they were only displayed in the nursery stock and absent in orchards in Khartoum State. The combined disease development of the two planting types (orchards and nurseries) in Kassala State was consistently significantly (P ≤ 0.05) higher in Sawagi North compared to that in Sawagi South (Table 1). Separately, CBC development on each planting types was as follows:

i. In orchards

The results of the disease Incidence, severity, and disease index are shown in Table 1. The disease was recorded in all surveyed commercial orchards in Kassala State. While Sawagi North recorded significantly (P ≤ 0.05) higher CBC incidence (66.6%) comparatively low disease level was recorded in Sawagi South (18%). Similarly, more severe CBC (3 fold as much) was encountered in Sawagi North with a disease index, which was significantly (P ≤ 0.05) higher (64.9%) than that recorded in Sawagi South (25.3%). However, the disease was not detected in citrus orchards in Khartoum State.

ii. In nurseries

Citrus bacterial canker disease was recorded in all the surveyed nurseries in both locations of Kassala State (Table 1). North Sawagi recorded 51.7%, 2.1 and 52% CBC incidence, severity, and disease index, respectively. Comparable CBC development was noticed in South Sawagi indicating 53%, 1.8 and 51.5% incidence, severity, and disease index respectively. However, In Khartoum State, the disease was detected in 45% of lime plants in only one nursery in Khartoum North with an overall mean disease incidence of 12.6%, moreover, 0.7 and 21.2% CBC severity and disease index were recorded respectively.

Symptomatology

Typical symptoms were observed upon examination of 'local' lime trees infected with CBC (Figure 1). These characteristic external symptoms were cankerous pustules and necrotic lesions consisting of raised or erumpent corky tissues on leaves, fruits, twigs, thorns, and branches. The canker lesions on leaves and fruits were surrounded by a water-soaked ring and often with a prominent yellow margin. Also, lesions with a shot hole-like appearance were found. Unusual canker lesions were also commonly encountered on the leaves, which were associated with mechanical (i.e. thorn) and leaf miner damages. Many of these canker lesions coalesced to form elongate or blotchy corky patterns on the affected leaves. Frequently, severe infections were encountered in some surveyed orchards which largely covering. In severe cases of foliage infection, extensive leaf defoliation and die-back symptoms were observed. The fruits were particularly susceptible to the canker pathogen, usually developing severe canker lesions with crater-like centers and severe gummy exudates. Which ultimately led to piles of fallen fruits underneath the affected lime trees. In nurseries, severe canker symptoms were also observed on leaves, twigs, and stems (Table 2).

Pathogenicity test on detached leaves:

The typical canker lesions observed on infected lime leaves were reproduced only on lime in response to the pathogenicity test performed on detached leaves. On day 7 post-inoculation small white callus developed on lime leaves at the six inoculation points (Plate 12A). Advanced callus formation gradually changing to tan color lesions surrounded by water-soaked area and yellow halo were produced on lime leaves as time progressed to 20 days after inoculation (Plate 13A). A typical symptom of flat lesions developed on sour orange, ʻValenciaʼ orange, and ʻBaladiʼ mandarin (Plates 13B, 14A, 14B). However, ʻEurekaʼ lemon, ʻMerkisʼ mandarin, and grapefruit (Red blush and March) failed to produce any symptoms (Plates 15 and 16) similar to the control treatment inoculated with sterile distilled water (Figure 2).

    Discussion

The citrus bacterial canker disease (CBCD) has become established and attained an epidemic status in different parts of Sudan. Although the disease has not been known before 2013, its emergence in autumn 2014 was somewhat overwhelming and so intriguing. It infested the main citrus growing areas of Kassala State which represents the most important commercial producing region in the country, particularly the North Sawagi and the South Sawagi localities recording considerably high CBCD levels (incidence of 66.6% and 18% and disease indexes of 64.9% and 25.3%, respectively). This outbreak is believed to have been caused through a long-distance spread, which more often occurs with the movement of infected propagating materials such as nursery stocks, budwood or budded trees, or through contaminated environmental factors such as nursery workers carrying the bacteria on hands, clothes, and contaminated budding tools [11]. Alternatively, the spread of canker bacteria may have occurred during strong wind-driven rains coming from Gadaref State or across the borders from Ethiopia (Derso et al., 2009) or Saudi Arabia [6]. The fact that CBCD was first detected in some Gadaref State localities only a year before it appeared in Kassala, would indicate that the path of the disease was most likely: Ethiopia- Gadaref then Kassala. This could be substantiated by the discovery of the disease several years ago in Ethiopia (Derso et al., 2009) and only recently in commercial citrus orchards and nurseries of Gadaref State [20]. The bacterial inoculum might have been present in Kassala in the same year of the discovery of CBCD in Gadaref, but it has been overlooked since the pathogen is known to survive epiphytically at low population levels on citrus hosts without symptoms development, and in association with other weeds and grass hosts [21,22]. However, the bacteria survive primarily in naturally occurring lesions. Cankerous leaves, twigs, and branches constitute the main source of the inoculum, but the prominent occurrence of lesions is seasonal, coinciding with periods of heavy rainfall, moderate temperature, and growth flushes. The pathogen can survive up to 6 months or more in the infected leaves [23] and up to 76 months on diseased twigs [24].

In comparison, the greater CBCD development in the Northern Sawagi over that in the Southern Sawagi can be attributed mainly to the topographical factors of Kassala State heights (≤ 850 m a.s.l). These heights may retard the wind speed in South Sawagi, while in North Sawagi orchards on the other side exposed to wind-driven that may carry the bacterial inoculum. Also, the variation of disease pathometry may have a direct relation to differences in the prevailing cropping systems in the two locations. For instance, the mixed plantation of lime /mango system makes southern Sawagi trees less infected because of the windbreak effect created by mango trees. This is not surprising since cankers develop more severely on the side of the tree exposed to wind-driven rain. [25]. Although this variation in CBCD level is perceivable in the first year of the appearance of the disease, it is unlikely to persist if the locally prevailing epidemiological factors remain remarkably similar in the two locations.

On the other hand, CBCD was absent in Khartoum State, be it in commercial citrus orchards or nurseries, except in one nursery of lime seedlings in Khartoum North. This was perceivable since the prevailing environmental conditions were not conducive for CBCD development [26]. The remarkably high CBCD incidence reported in that nursery (45%), however, was believed to have resulted from a consignment of infected nursery stock brought from infested wet areas such as Kassala or Gadaref. It may constitute a potential threat, at least in localized small pockets in Khartoum State where the temperature and humidity may allow for a limited occurrence and spread of the disease. The study also demonstrated that the epidemic was naturally occurring and spreading on acid lime trees (Citrus aurantifolia) but not on other citrus varieties, even if they were close to the diseased lime trees. This strongly indicates that this citrus canker bacterial isolate is restricted to lime. The host specificity of this canker bacterium to lime was like that from Gadaref [20], which would further support the notion that it originated from Gadaref. The canker bacterium isolates which are specific to lime have also been previously reported from Maldive islands [26], Southwest Asia [5], Ethiopia (Derso et al., 2009), and the western region of Saudi Arabia [6]. The fact that the pathogenicity tests of the isolated bacterium developed characteristic lesions only upon artificial inoculation of detached leaves of lime and failed to induce any cankerous lesions typical of citrus bacterial canker (CBC) on grapefruit, sweet orange, or on other citrus varieties tested was a strong indication that the present bacterial isolate may belong to a special group of strains designated as pathotype A*. Although closely related to the ordinary A pathotype, these strains can be readily distinguished from the former, based on their atypical combination of host range and symptomatology [5]. Additional strains with similar biological behavior were reported by [7] and were also included in this distinctive group (i.e. A*). Although this bioassay has been found in both specific and sensitive diagnostic methods for CBC [8] the molecular analysis will certainly establish the correct identity of the bacterial isolates spreading in Kassala and elsewhere in Sudan. Collectively, the association and isolation of Xanthomonas sp. from symptomatic lime trees, together with the symptomatology, biochemical characterization, and pathogenicity tests strongly indicate that the currently investigated disease on lime in Kassala and Khartoum states is CBC (X. citri subsp. citri) and these lime isolates are closely related to the strains of the atypical Asiatic pathotype (Xcc- A*) [27-32].

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