Citrus tristeza virus
Encyclopedia
Citrus tristeza virus is a viral species of the Closterovirus genus that causes the most economically damaging disease to its namesake plant genus, Citrus
. The disease has led to the death of millions of Citrus trees all over the world and has rendered other millions useless for production. Farmers in Brazil
and other South American countries gave it the name "tristeza", meaning sadness in Portuguese and Spanish, referring to the devastation produced by the disease in the 1930s. The virus is transmitted most efficiently by the brown citrus aphid
.
Symptoms of CTV infection are highly variable and depend on several factors including host, virulence of the particular virus strain, and environmental conditions. The three most common groupings of symptoms are decline (quick and slow), stem-pitting, and seedling yellows.
Decline is generally exhibited with sweet orange, mandarin, or grapefruit when they are grafted on infected sour orange rootstock. This decline includes chlorotic leaves and general dieback of the infected tree. Decline may be slow, lasting several months to years after the first symptoms are noticed. In this case the infected tree will also show a bulge above the bud union and honeycombing on the inner face of the original sour orange root stock bark. The decline may also be quick, resulting in host death just days after the first symptoms are noticed.
Stem-pitting is another symptom of CTV that manifests in most host types under the proper conditions, and especially in Citrus trees grafted onto sour orange rootstock. The host will develop pits in the trunk and stem. This results is decreased tree vigor and reduced fruit yield. This is typically caused by the more virulent strains of CTV..
The third major symptom of CTV infection is seedling yellows. This tends to occur on sour orange, Natsudaidai, lemon and buntan. Symptoms include yellowing of foliage and general dieback.
Other diagnostic procedures include electron microscopy, double-antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA), tissue-print ELISA, and PCR-based assays . These methods identify signs of the virus, such as its microscopic structure (electron microscopy), the presence of its proteins’ antigens (ELISA) or the presence of its RNA (PCR).
tissues of its host. It is transmitted semi-persistently by vectors that penetrate the phloem to extract sap, mostly the aphid species that colonize the crop . The brown citrus aphid is considerably more efficient at transmitting the virus than are other aphids that infest citrus. In Florida, it has been shown to be from six to twenty five times as efficient as Aphis gossypii
, the most efficient vector found in the state before the introduction of the brown citrus aphid prior to 1995. This efficiency is enhanced by the narrow host range of the brown citrus aphid and its tendency to produce winged forms in order to colonize new growth. A. gossypii has a much wider host range, including hundreds of plant species in Florida, and the transmission of the virus is blocked when it feeds on a different host.
A biological approach has been to bring in a parasitic wasp from Asia that naturally controls A. spiraecola. This approach was stopped when T. citricida arrived due to it not being a parasite of the more important aphid. There is a natural parasite of aphids in Florida in the gall midge family Cecidomiidae that attempts to keep aphid levels down, however due to the influx in aphid population it has not been able to keep populations down.
Citrus
Citrus is a common term and genus of flowering plants in the rue family, Rutaceae. Citrus is believed to have originated in the part of Southeast Asia bordered by Northeastern India, Myanmar and the Yunnan province of China...
. The disease has led to the death of millions of Citrus trees all over the world and has rendered other millions useless for production. Farmers in Brazil
Brazil
Brazil , officially the Federative Republic of Brazil , is the largest country in South America. It is the world's fifth largest country, both by geographical area and by population with over 192 million people...
and other South American countries gave it the name "tristeza", meaning sadness in Portuguese and Spanish, referring to the devastation produced by the disease in the 1930s. The virus is transmitted most efficiently by the brown citrus aphid
Toxoptera citricida
Toxoptera citricida is a species of aphid known by the common names brown citrus aphid, black citrus aphid, and oriental citrus aphid. It is a pest of citrus and vector for the pathogenic plant virus citrus tristeza virus...
.
The Pathogen
CTV is a flexuous rod virus with dimensions of 2000nm long and 12nm in diameter. The CTV genome is typically between 19.2 and 19.3 kb long and consists of a single strand of (+)-sense RNA enclosed by two types of capsid proteins. The size of its genome makes CTV one of the largest RNA viruses known. The CTV genome contains 12 open reading frames, which could encode at least 17 proteins.Hosts and Symptoms
CTV infects several species of the plant genus, Citrus, including sour orange (Citrus aurantium), and any Citrus specie grafted onto sour orange root stock, sweet orange (C. sinensis), grapefruit (C. paradisi), lime and Seville orange (C. aurantifolia), and mandarin (C. reticulata). CTV is also known to infect Aeglopsis chevalieri, Afraegle paniculata, Pamburus missionis, and Passiflora gracilis. CTV is distributed worldwide and can be found wherever citrus trees grow .Symptoms of CTV infection are highly variable and depend on several factors including host, virulence of the particular virus strain, and environmental conditions. The three most common groupings of symptoms are decline (quick and slow), stem-pitting, and seedling yellows.
Decline is generally exhibited with sweet orange, mandarin, or grapefruit when they are grafted on infected sour orange rootstock. This decline includes chlorotic leaves and general dieback of the infected tree. Decline may be slow, lasting several months to years after the first symptoms are noticed. In this case the infected tree will also show a bulge above the bud union and honeycombing on the inner face of the original sour orange root stock bark. The decline may also be quick, resulting in host death just days after the first symptoms are noticed.
Stem-pitting is another symptom of CTV that manifests in most host types under the proper conditions, and especially in Citrus trees grafted onto sour orange rootstock. The host will develop pits in the trunk and stem. This results is decreased tree vigor and reduced fruit yield. This is typically caused by the more virulent strains of CTV..
The third major symptom of CTV infection is seedling yellows. This tends to occur on sour orange, Natsudaidai, lemon and buntan. Symptoms include yellowing of foliage and general dieback.
Diagnosis
CTV is classically diagnosed by graft-inoculating a Mexican lime (Citrus aurantifolia) with tissue from a diseased plant. The Mexican lime will develop highly predictable symptoms. Symptoms of the leaves begin as clear veins that turn corky, which is then followed by chlorosis and cupping of the leaf. Particularly severe strains may result in stunting, and stem-pitting may also occur. Alternatively CTV can be indicated by the presence of aggregates of cross-banded inclusion bodies in the phloem of the diseased plant.Other diagnostic procedures include electron microscopy, double-antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA), tissue-print ELISA, and PCR-based assays . These methods identify signs of the virus, such as its microscopic structure (electron microscopy), the presence of its proteins’ antigens (ELISA) or the presence of its RNA (PCR).
Epidemiology
CTV is a virus that is limited to the phloemPhloem
In vascular plants, phloem is the living tissue that carries organic nutrients , in particular, glucose, a sugar, to all parts of the plant where needed. In trees, the phloem is the innermost layer of the bark, hence the name, derived from the Greek word "bark"...
tissues of its host. It is transmitted semi-persistently by vectors that penetrate the phloem to extract sap, mostly the aphid species that colonize the crop . The brown citrus aphid is considerably more efficient at transmitting the virus than are other aphids that infest citrus. In Florida, it has been shown to be from six to twenty five times as efficient as Aphis gossypii
Aphis gossypii
Aphis gossypii is a tiny insect or greenfly in the superfamily Aphidoidea in the order Hemiptera. It is a true bug and sucks sap from plants. It is a widely distributed pest of a variety of agricultural crops in the families Cucurbitaceae, Rutaceae and Malvaceae...
, the most efficient vector found in the state before the introduction of the brown citrus aphid prior to 1995. This efficiency is enhanced by the narrow host range of the brown citrus aphid and its tendency to produce winged forms in order to colonize new growth. A. gossypii has a much wider host range, including hundreds of plant species in Florida, and the transmission of the virus is blocked when it feeds on a different host.
Environment
Aphids are the main vector by which CTV is transmitted. Initially the United States only had the melon (cotton aphid) Aphis gossypii, spirea aphid Aphis spiraecola, and black citrus aphid Toxoptera aurantii. These aphids transmit the virus much less efficiently than the brown citrus aphid Toxoptera citricida. Toxoptera citricida had been found in East Asia and South America, and had slowly made its way up through Central America and the Caribbean Islands. By 1993 it had reached Cuba, and in 1995 it was found in Florida. The aphids require at least 30 to 60 minutes of feeding to acquire the virus, and remain viruliferous for at least 24 hours after. T. citricida is much more efficient than the other aphids, and it can transmit CTV strains causing severe stem pitting or decline that the other aphids cannot vector. Even though A. spiraecola is less efficient, it tends to have higher populations and thus can still transfer the virus fairly well. T. aurantii has been shown to only transmit certain strains of CTV. Of the three lesser efficient aphids, A. gossypii has a 78% transmission efficiency, while A. spiraecola and T. aurantii are between 0-6% . The main cultural practice that increases the severity of the CTV is when the citrus trees are grafted onto the sour orange rootstock. Using CTV infected budwood for grafting can transfer the CTV from the original tree to the new one.Management
When CTV was first discovered quarantine was the best management strategy, now quarantining only works for areas where a small amount of trees are infected. The other approach that was adopted after T. citricida came to the U.S. was destroying any tree in which the budwood was not free of CTV. This is a more drastic measure but must be done due to how fast T. citricida can spread the virus. If there is any CTV in the area, avoid grafting trees on sour orange rootstock and instead graft on tristeza-tolerant rootstock. Since the virus has been in Asia a long time they have used rootstock from trifoliate orange, Sunki, and Shiikuwasha (C. depressa Hayata) for many years. Some hybrids, such as Troyer citrange or Swingle citromelo, show promise as resistant root-stock. Also, using scion varieties tolerant to stem pitting is recommended. The production of virus-free trees by shoot-tip grafting or heat treatment is very important. If it is possible to keep the field permanently free of CTV, the planting of virus-free trees is practical. In areas where it is difficult to find a virus-free field, preinoculation with a mild CTV strain protects trees against infection with a severe strain of CTV. Bud-stock trees should be inoculated with a mild CTV strain at least four to six months prior to propagation. They should then be kept in a greenhouse, under aphid-free conditions. It is also recommended that nurseries of young plants grown for propagation should be kept vector-free. Top-grafting with pre-inoculated buds onto interstock trees infested with severe CTV is not effective, because the tree has little protection against the disease. It is necessary to spray nursery plants and young trees with insecticide occasionally, to control aphids. This should retard any re-infection with the virus.A biological approach has been to bring in a parasitic wasp from Asia that naturally controls A. spiraecola. This approach was stopped when T. citricida arrived due to it not being a parasite of the more important aphid. There is a natural parasite of aphids in Florida in the gall midge family Cecidomiidae that attempts to keep aphid levels down, however due to the influx in aphid population it has not been able to keep populations down.