'0 COWPEA PESTS AND DISEASES S. R. Singh Entomologist, Grain Legume Improvement Program, I ITA. D. J. Allen Pathologist, Grain Legume Improvement Program, IITA. INTERNATIONAL INSTITUTE OF TROPICAL AGRICULTURE IBADAN NIGERIA MANUAL SERIES NO. 2 CONtENTS Page Insect Pests Pre-fl oweri ng pests Leafhoppers 3 Aphids 5 Ootheca foliage beetle 7 Striped foliage beetle 9 Post-flowering pests Flower thrips 11 Maruca pod borer 13 Cydia pod borer 17 Flower beetles: Mylabris 19 Pod sucking bugs: Anoplocnenis 21 Pod sucking bugs: Riptortus 23 Pod sucking bugs: Acanthomia 25 Pod sucking bugs: Nezara 27 Storage pest Cowpea storage weevil 29 Nematodes Root knot 31 Fungal Diseases Seedling diseases Seedling mortality 33 Stem, root and foot rots Anthracnose 36 Pythium stem rot 38 Sc!erotium stem rot 40 Wilts Fusarium wilt 43 Leaf diseases Cercospora leaf spot 46 Target spot 50 Septoria leaf spot 53 Dcctuliophoraleaf spot 55 Web blight 57 Ascochyta blight 61 Brown rust 63 Pink rust 65 False rust or yellow blister 68 Black spot or leaf smut 71 Powdery mildew 73 Pod diseases Lamb's tail pod rot 75 Co//etotrichum brown blotch 78 Scab 80 Bacterial Diseases Bacterial blight or canker 82 Bacterial pustule or spot 84 Virus Diseases (and see Appendix 2) Cowpea (severe) mosaic 86 Cowpea (yellow) mosaic 88 Cowpea aphid-borne mosaic 90 Cowpea golden mosaic 92 Parz.itic Higher Plants Witchweed 94 Non-Parasitic Disorders Calcium, magnesium and sulphur 96 deficiencies Molybdenum and iron deficiencies 98 ii Manganese deficiency, manganese 100 and aluminium toxicities Sun scorch 102 Appendices Collection and preparation of 103 plant disease and insect specimens Other cowpea viruses 106 Insecticides 107 Sources of pest and disease 108 resistance References 109 iii 510 15 20 25 30 List of Plates Leafhoppers (Empoasca sp.) 1 Leafhopper damage 2 Aphids (Aphis craccivora) 3 Aphid resistance in cowpea 4 Ootheca mutabilis Striped foliage beetle (Medythia quaterna) 6 Maruca larva Adult Mylabris Nezara viridula adults Seedling mortality showing hypocotyl lesion Sclerotium leaf spot Flower thrips (Megalurothrips sjostedti) 7 Thrips damage 8 Maruca testulalis adult 9 Stem damage caused by Maruca 11 Pod damage caused by Maruca 12 Cydicptychora adult 13 Cydia larval damage 14 Anoplocnemis curvipes adults 16 Pod sucking bug damage 17 Riptortus dentipes 18 Acanthornia nymphs 19 Callosobruchusmaculatus adult 21 Bruchid damage 22 Root knot nematode damage 23 Root knot galling 24 Stem anthracnose 26 Pyvtlhium wet stem rot 27 Sclerotiun7 stem rot 28 Field symptoms of Sclerotium stem rot 29 Fusarium wilt showing vascular necrosis 31 iv Cercospora canescens lesions, upper leaf 32 surface Cercospora cruenta leaf spot 33Cercospora canescens lesions, lower leaf 34 surface Target spot (Corynespora cassiicola) 35Septoria leaf spot 36 Aristastoma leaf spot 37 Dactuliophoraleaf spot 38Web blight (Rhizoctonia solani) 39 Ascochyta blight 40 Brown rust (Uromyces appendiculatus) 41 Pink rust (Phakopsorapachyrhizi) 42 Synch)ytrium false rust 43Black spot (Protomycopsis phaseoli) 44 Powdery mildew (Erysiphe polygoni) 45 Lamb's tail pod rot (Choanephora sp.) 46 Brown blotch (Col/etotrichum spp.) 47 Scab (Elsinoe phaseo/i) on pod 48 Scab on stem 49Bact, -ikl blight (Xanthomonas vignicola) 50 Ba, ' )ustule (Xanthomonas sp.) 51 Bactc.ia pustule 52 Cowpea (severe) mosaic 53Cowpea (yellow) mosaic 54Cowpea aphid-borne mosaic 55 Cowpea golden mosaic in Nigeria 56 Cowpea golden mosaic in Tanzania 57 Witchweed (Strigagesnerioides) 58 A lectra vogeii 59Calcium deficiency 60 Magnesium deficiency 61Sulphur deficiency 62 V List of Plates Molybdenum deficiency 63 Iron deficiency 64 Manganese deficiency 65 Manganese deficiency 66 Manganese toxicity 67 Aluminium toxicity 68 Sunscorch 69 v! Introduction This booklet is intended as a guide to the field recognition of cowpea pests and diseases for use both by agricultural research and exten­ sion staff and cowpea producers. Certain pests and pathogens are not reliably identified in the field and, in ScLIC1cases, laboratory diagnostic featuores are inclLded. 'In other cases, specialist iden ti ficat ion may be necessary; therefore, notes on the collection and preparation of plant disease and insect specimens are incidced in Appendix I. The pests and diseases described are those which we feel are of greatest econric iRnp ortanoric tir ngllocr t tile world; hot tile emphasis ias been on tropical Africain condi­ tions Under which tlie bulk of tile crop is grown . We Ihiave incILiied non -parasitic diseases so that they may be distinguished from parasitic attack. Vilrcus symptorus in cowpea' are generally not diagnostic, and specialist identification is essential ; only four of the LriIerotls cowpe, virIses arC illuIs­ tratecd, the otliel inilportanit viruSeS are suIM­ mari/ed in Appendix 2. Inrview of rhe rte at which pesticide reconli riendit ioils bec ome obsolete, ill­ secticidies have not been emiph asi/ed; crII­ renitl eflective clieriicals are given in Appendix 3. Socrrces of resistance to pests arId diseases incowpea atrC given in Appendix 4. We have included relererices that extend the use of tie booklet to research workers who may reuCIcire greater detail. COWPEA PEST IIII11 DISEASES by S.R. SINGH D.J. ALLEN 4 LEAFHOPPERS Empoasca spp. Distribution and Importance: Widely distri­buted in the tropics and subtropics. Im­portant species include E. kerli in Asia, E.dolichi in Africa, and E. kraerneri in Central and South America. Biology and Damage: The biolhgy of theseveral species of Empoasca, which closelyresemble each other ih appearance isgenerallysimilar (Plate 1). Eggs, which are laid on theunderside of leaves, hatch into nymphs within7-10 days. There are five stages (instars) innymphal development which last about 10days before the adult appears. The adults' lifeexpectancy varies from 30 - 60 days.Leafhoppers infest cowpeas at theseedling stage. The symptoms of damageyellow discoloration are of the leaf veins andmargins, followed by cupping of the leaves(Plate 2). Severely infested plants becomestunted, so leading to confusion with virussymptoms and may dry prematurely. Cowpeacultivars resistant to Empoascu have beenidentified (Appendix 4). Reference: 42, 43, 44. 3 i r 4 Insect pests COWPEA APHID Aphis craccivora Distribution and Importance: A.craccivora is an important legume pest of Asia and recent observations suggest that aphids may also be seasonally important in parts of Africa. This species of aphid not only causes direct damage to its hosts (including groundnut as well as cowpea) but also transmits cowpea aphid-borne mosaic virus. Biology and Damage: A. craccivora is a medium sized, shiny black aphid (Plate 3) whose biology varies depending on climate and soil. Under favorable conditions a genera­ tion may take only 13 days. Adults live from 6-15 days and may produce more than 100 progeny. On cowpea aphids normally feed on the undersurface of young leaves, on young stem tissue and on pods of mature plants. When present in large numbers, they cause direct feeding damage. The plants become stunted, leading to leaf distortion, premature defolia­ ion and death of seedlings. An indirect and generally more harmful effect, even of small populations, is the transmission of cowpea aphid-borne mosaic virus (page 40). Cowpea cultivars resistant to this pest have been identified (Plate 4, Appendix 4). Reference: 43, 44. 5 f -, r .I .. I1'tlliii 6 -I Insect pests FOLIAGE BEETLE Oothecamutabilis Distribution and Importance: This beetle is widely distributed in Africa where it is an important foliage feeder on cowpea seedlings. In East Africa a related species, 0. bennigseni, is also found. Biology and Damage: Adults are about 6 mm long, oval, and normally shiny reddish brown (Plate 5), although this varies consider­ ably and black o; brown adults may occUr. Yellow egg masses are laid in soil, and there are three larval instars. Adults feed inter­ veinally on the leaves, later enlarging damage into feeding holes. High beetle populations can totally defoliate cowpea seedlings and kill them. The larvae feed on cowpea roots but seldom cause serious damage. Adult beetles are effective vectors of cowpea (yellow) mosaic virus. Ceratoma spp. in tropical America cause similar damage to cowpea and are vectors of cowpea (severe) mosaic virus (page 86). References: 42, 44, 49. 7 Insect pests STRIPED FOLIAGE BEETLE Medythia quaterna (= Luperodes lineata = Paraluperodus quaternus) Distribution and Importance: M. quaterna is known from the forest zone of West and Central Africa where it is a sporadic pest. Its distribution is less wide than Ootheca mu tabilis. Biology and Damage: The adult, which is about 4 mm long and striped longitudinally with white and light brown markings, attacks young cowpea seedlings by feeding on newly emerged leaves, mostly at the margins (Plate 6). Eggs are laid in the soil, where the larvae and pupae develop. Other beetles, which are minor pests of cowpea include Lagria villosa and the related Chlysolagria nairobana. Cowpea seedlings can withstand a substantial amount of defoliation by these beetles with­ out effect on subsequent seed yield. References: 42, 44. 9 10 Insect pests FLOWER THRIPS Megalu othrips sjostedti (= Taeniothrips s/ostedCi') Distribution and Importance: Flower thrips are among the most important pests of cowpea. In West Africa, they are frequently responsible for total crop loss. Biology and Damage: Adult thrips, which are shiny black, minute insects, are foundfeeding in flower buds and flowers (Plate 7).Severely infested plants do not produce anyflowers (Plate 8). When the thrips populationis very high, open flowers are distorted anddiscolored. Flowers fall early with the result that pods are not formed. The entire life cycle takes 14-18 days.Eggs are laid in the flower buds and nymphsfeed and do extensive damage. Pupae areproduced in the soil. There are at least two other species of thrips found on cowpea inAfrica. One, Sericothrips occipitalis, is a minorfoliage pest of cowpea seedlings mostly underdrought stress conditions. Adults are a palecolor with a black band around the abdomen. The other, Frank/iniel/a schultzei is found associated with cowpea flowers. It isa browninsect with a slightly yellowish head. Cowpea cultivars moderately resistant to M. sjostedtihave been identified. When combined with afew insecticide applications, effective pro­ tection is provided. References: 42, 43, 44, 51 11 Insect pests LEGUME POD BORER Maruca testululis Distribution and Importance: Muntica is widely distributed throughout the tropics and sub-tropics where it may cause extreme' damage. It is a major cowpea pest in Africa and Southeast Asia. Biology and Damage: The adult is a nocturnal moth, light brown with whitish markings on its forewings (Plate 9). The larva is light brown with irregular brown-black dorsal, lateral and ventral spots and a black head (Plate 10). Adult moths, which live for up to a week, lay eggs on leaf buds, flower buds and in flowers. Eggs hatch in about 5 days and the larvae feed on tender parts of the stem, peduIncles, flower buds, flowers and pods(Plate I1). The characteristic signs of larval feeding are webbing of flowers, pods, and leaves and production of frass on pods (Plate 12). The spatial separation of pods is important; points of contact between pods, and between pods and leaves are especially prone to damage. About 150 eggs are laid per female. There are five larval instars which together last 8 to II days before pupae develop in the soil. The pupal stage lasts 5-7 days before adults hatch. Cowpea cultivars resistant to stem damage have been identified. Usually resistance is associated with long peduncles and widely separated pods that escape damage. 13 Some of the other lepidopterous pests found feeding on leaves, flowers, flower buds and green pods are Spodoptera littoral/is and the lycaenid butterflies, Euchrysops malathana and Virachola antals. S. littoralis adult moths are brown while the larvae are either green, dark grey or brown with pale longitudinal lines along the body. The larvae of the two lycaenids are dark green, flattened and sluglike in movement. Adult E. malathana is smalier, shiny and light brown; V. antalus is metallic purple. References: 42, 43, 44, 50 14 IM Nf*. 1. ~ -1' ~ ~' 2~ ~ 16 Insect pests COWPEA SEED MOTH Cydia ptychora (= Laspeyresia ptychora) Distribution and Importance: C.ptvchora is a widely distributed and loca!ly important pest of cowpea in tropical Africa. Cydia species also infest soybean and lima bean in Asia andLatin America as well as Africa.Biology and Damage: The biology of thedifferent Cydia spp. appears to be similar andthey cause similar damage on different hostplants. The adult moth of C ptychora is tiny and dull brown or black (Plate 13). Thefemales lay eggs mostly on the nearly maturepeduncles or pods. The first instar larvae enterthe pod and feed on the seeds remaininginside the pod. Early instar larvae arc whitish,but later instars are pink to bright red (Plate 14). They pupate in the soil. References: 42, 44 17 18 Insect pests BLISTER BEETLES My/obris spp. Distribution and Importance: A number of species of the genus My/abris are found throughout Africa and Asia. M. farquharsoni and l. bipartia are common in Africa while Al. pust/iIta iscommon in Asia. They feed on cowpea flowers leading to considerable crop damage. Large numbers of beetles in a field may result in total crop loss. Biology and Damage: The blister beetles are elongated and narrow in shape. They are easily recognized by the bright-colored elytra with broad black yellow or red bands (Plate 15). The life history of these beetles is rather complex. They have hypermetaniorphosis, with the different larval instars being quitedifferent in form. The larvae are mostlybeneficial and do not feed on plant material. The adult beetles are attracted to maize pollen. Cowpea fields near or intercropped with maize often suffer serious damage. It is difficult to control this pe>t with insecticide sprays as the beetles eed on flowers that only persist for a (lay. References: -12, 41 19 20 Insect pest POD SUCKING BUG Anoplocnemis curvipes Distribution and Importance: A major pest intropical Africa; yield losses vary from 30 to 70 percent. Biology and Damage: Full grown bugs areblack and are about 3 cm long (Plate 16).Eggs are laid in chains and are grey to black.They hatch in about 7-11 days. There are fivenymphal instars, and the early instars resemble ants. The total nymphal period varies from29-54 days; the life of an adult from 24-84days. Eggs are usually laid on leguminous trees or weeds, but seldom on cowpeas.Adults are strong fliers. They suck the sapfrom green pods, causing them to shrivel anddry prematurely with resulting loss of seed (Plate 17). References: 42, 44, 49 21 22 Insect pests POD SUCKING BUG Riptortus dentipes Distribution and Importance: A serious pest in tropical Africa. Several coreids in the genus Riptortus (e.g. R. fuscus, R. pedestris, R. linearis and R. pilosus) found in Asia asare pests of cowpea. Biology and Damage: The adult bug is cylindrical, light brown with characteristic white or yellow lines on the side of the body(Plate 18). Eggs are laid either in short rows u, are scattered. They are mostly laid on leguminous trees and weeds but few are found on cowpeas. There are five nymphal instars. Adults are strong fliers and like Anoplocnemis curvipes (page ')I) cause damage by sucking the sap from green pods. References: 42, 44, 49 23 24 Insect pests POD SUCKING BUG Acant7omia spp. Distribution and Importance: Acanthomiatomentosicol/is and A. horrida are the two most common species in tropical Africa. Bothdo extensive damage and may cause yield losses up to 90 percent. Biology and Damage:A. tomentosicollis isbrown and A. horrida is grey (Plate 19). A.horrida is more cylindrical with longer spines on either side of the body. A. tomentosicollishas a more compact, 'furry" body, with short spines on the abdomen. Eggs are laid on cowpea. Both adults and nymphs feed onpods by sucking the sap. They are not easilydisturbed, and large numbers are foundfeeding together on a single pod. They cause similar damage to Anoplocnetnis curvipes (page 21). References: 42, 44, 49 25 I- S. 26 Insect pests POD SUCKING BUG Nezara viridula Distribution and Importance: Commonly known as the green stink bug, it is widespread in the tropics and subtropics. It is primarily a pest of soybean, but also does extensive damage to cowpea crops. Biology and Damage: Batches of 30 to 80 eggs are laid on the underside of the leaves. A single female may lay from 100 to 250 eggs infour to six batches. There are five nymphal instars. Nymphs are shiny with bright spots. Adults are green and triangular in shape (Plate 20). The entire life cycle may take 30 to 60days. Both adults and nymphs suck the sapfrom the developing pods causing damage similar to that caused by Anoplocnemi; curvipes. References: 42, 44, 49 27 28 Insect pests COWPEA STORAGE WEEVIL Ca//osobruchusmuculatus Distribution and Importance: C. macu/tais is a storage pest of worldwide importance. Severe infestations can lead to grain losses of Up to 30 percent within six months of storage. C chinensis is a minor cowpea storage pest. Biology and Damage: The adult is asmall square-shouldered beetle with dark mn.rkings on the wing cases (Plate 21). It is a field-to­ storage pest. Adults live for 5 to 8 days. Eggs are laid on the seed surface. After hatching, the larvae enter the seed and complete their development within them. Adults emerge from the seed through characteristic holes made by the larvae. The holes make it easy to recogni/e infested _eed (Pllte 22). The entire life cycle takes about 35 d(iys. A single cowpea cultiv11r wrth a moderate level of resistance in storage, and two cultivars with moderate levels of resistance to pod damage have recently been identified. References: 5, 42, 43 29 CMI. 30 Nematodes ROOT KNOT NEMATODES Causal agents: Meloidogyne incognita, M. lavanica and M. arenaria Distribution and Importance: All three species of nematode are widespread through­ out the tropics. M. incognita can cause severe crop loss. A4. javanica may make cowpea more susceptible to fusarium wilt (page 43). Symptoms and Diagnosis: Affected plantsdie prematurely (Plate 23), as a result of extensive damage to the root system which may be heavily galled (Plate 24). Root knotgalls are easily distinguished from the nodules containing Rhizobium which are usually small, spherical, and pink inside. Numerous species of non-gall-rorming nematodes areparasitic on cowpeas t'iroughout the sub­ tropics and tropics. Spread and Control: The nematodes sur­ vive in soil and on alternate hosts.Nematocides are available but uneconomic. Crop rotation may be effective but the host range may be wide. Sources of host plant resistance are 4,vailable in cowpea but often are race specific. References: 6, ;8, 52, 53 31 32 Fungal Dieseases SEEDLING MORTALITY Causal agents: Pthujam aphanidermatumand Corticitm solani (=Rhizoctoniasolani Thanatephorus cicum eris) Distribution and Importance: The causalfungi are ubiquitous. Seedling mortality hasbeen investigaed only in Nigeria but thedisease probably occurs elsewhere. Seventyfive percent mortality of cowpea seedlings hasbeen obtained with in 21 days after sowing.Disease incidence is highest during cool, wet, overcast weather. Symptoms and Diagnosis: Both pre-andpost-emergence mortality occur; in the latter case, symptoms can be observed on thehypocotyls (Plate 25). The reddish brownlesions caused by C solaGIi are usually limited to the collar region of the hypocotyl at whichpoint the diseased seedling topples. uphanidernialtm, however, I. moves rapidly Ipthe hypocotyl giving it a grey-green, wet appearance and the seedlings undergo a watery collapse. Spread and Control: These pathogens are abundant in the soils in the forest region of sou thern Nigeria wh ere the humid environ­ ment is favorable for their activity. Seedling mortality is effectively controlled with chloroneb (= demosan) applied as a seed dressing (2g/kg of seed). Reference: 62 33 25 34 35 Fungal Diseases ANTHRACNOSE Causal agent: Colletotrichum lindemuthianum Distribution and Importance: The pathogen is widely distributed, being present in almost all areas where beans (Phaseolus vulgaris) are grown. Isolates from cowpea have been obtained from Nigeria and other parts of Africa, India and Brazil. The disease is parti­ cularly severe in monocropped cowpeas in which it can cause up to 50 percent loss in yield. Symptoms and Diagnosis: All above­ ground parts can be affected but anthracnose is chiefly a stem disease in cowpea. Individual lesions are lenticular to sunken, and tan to brown in color. Lesion size and distribution depend on varietal susceptibility. Highly susceptible lines develop large spreading lesions which rapidly merge to girdle stems, branches, peduncles and petioles (Plate 26). Anthracriose can be distinguished from scab (page 80) by the presence of black setae, and from the related brown blotch fungi (page 78) by the shape of the conidia (Figure 1). Spread and Control: Primary inoculum may come from seed (40 percent seed trans­ mission) or from diseased plant debris. Secondary spread is rapid during cool, wet weather. The disease may be controlled by using clean seed, applicaion of benomyl or mancozeb (0.2 percent a.i.) or by growing resistant varicties. Pathogenic variants occur. Roferences: 23, 29, 63 36 37 Fungal Diseases PYTHIUM STEM ROT Causal agent: Pythium aphaniderinatum Distribution and Importance: Worldwide. In Nigeria, field incidence in cowpea normally ranges between 0.5 - 10.0 percent, although occasional incidences of up to 30 percent have been observed. Symptoms and Diagnosis: Pythiurn stem rot is characterized by a grey-green water­ soaked girdle of the stem extending from soil level Lip to and sometimes including the lower portions of the lower branches. During periods of high humidity copious growth of white, cottony Myceiia occurs at the stem base (Plate 27). Infected plants quickly wilt and (lie. The presence of oospores of the causal fungus in the stem curtical tissue distinguishes this disease from Scierotiurn stem rot (page 40) and Fusariuln collar rot (page 43) which superfici;illv resemble it. Cowpea stem rot caused by Phytophtihora spp., fungi closely related to Pythiuln, is of local importance in North America, Australia and India. Spread and Control: Probably not seed­ transmitted. Principally soil-borne. Bi-weekly applications of captafol effectively control the disease, but benomyl may increase its incidence. References: 30, 58, 64 38 33 Fungal Diseases SCLEROTIUM STEM ROT Causal agent: Corticiurn rolfsii = Sclerotium rolfsii) Distribution and Importance: The pathogen is widespread in moist tropics and warm temperate areas but the disease is of minor importance on cowpea. Symptoms and Diagnosis: The causal fungus infects the bases of stems producing a fan of silky white myceliLJm and large round sclerotia (Plate 28) which are initially white and gradually darken. Infected plants wilt and die (Plate 29). The mycelium and presence of sclerotia serve to distinguish this disease from Pythium stem rot which it otherwise re­ sembles. Occasionally, concentric leaf spots (Plate 30) are also induced by C. rolfsii. Spread and Control: C. rolfsii is an un­ specialised parasite capable of extensive saprophytic growth in surface layers of soil, persisting on crop residues and weed hosts. The sclerotia are disseminated by cultivation, wind and water, and occasionally as con­ taminants amongst seed. Control may be achieved by cultural means. References: 25, 63 40 Fig. 1. Colletotrichum lindemuthianum, showing setac and oblong conidia. Fig. 2. --usarium oysporum showing septate conidia. FUSARIUM WILT Causal agent: Fusurium oxysporurn f. sp. Iracheiphiluln Distribution and Importance: Fairly wide­ spread, being reported from North and South America, Asia and Australia. Reliably recorded in tropical Africa only fron Nigeria and Uganda. Locally danaging. Hosts include cowpea and soybean. Symptoms and Diagnosis: Leaves of in­ fected plants are limp and yellowed and in young plants a rapid wilt leads to death. Older plants are stunted, lea,Cs turn yellow and then fall and the plant gradually wilts. Ilie vascUlar tissue is typically necrotic (Plate 31), and it is this symptom, and the presence of characteristic spores (Figure 2) which dis­ tinguish the disease from the stem rots. FusUriumso/ui causes a collar and roo rot of cowpea in certain parts of tropical Africa and America while Verticilliurn albo-utrum causes a vascular wilt of cowpea in North America and Australia. Spread and Control: The pathogen is soil-borne and probably also seed transmitted. Control is best achieved through growing resistant varieties. Three pathogenic races are recognized. Reetences: 1.1,31 43 4 l ' ?31 44 , ot, A Funqal Diseues CERCOSPORA LEAF SPOT Causal agents: Cercospora canescens and C. cruenta Distribution and Importance: Both pathogens are widespread in warmer regions, occurring ol various legumes. They caln cause consider­ able leaf spotting of cowvpea after flowering when defoliation can lead to Yield losses of up to 20 percent (C. cutestelns) and over 40 percent (CAcrte'tua). C. citieta is the more imp ortant. Symptoms and Diagnosis: C. cuncens produces .icLIar to irregu lar ch err-red to reddish broMi lesions, Li P to I0 mm di ameter (Platk 32). C. uwn'tltil begin aSpotS as chlorosis (j ello\\ing) on the leaW tipper surface " Iiich becomes dotted it llspots of dead tissue that enlarge until the "hole lesion area is necrotic (Plate 33). On the lover leaf surflce, C. cIIsL tvns lesions ar e red (Pate 34) \1efreas the Io e r Surfaces oUlea es infected by UC.cr/le'U ha\e alreas Of pro1fuse sP orui la­ tion ill\llich the masses of collidiol.,,ores (strtictUres bealring spores) appear as downy grey-black nits. C. cuev5w'ne lesions may be distilguished from those c.aclsed by Septorciu (page 53) by microscopic examination of tile leaf spo ts '.licll bear claracteristic condipihorep s and ccJil idi a (Figure 3). Sinlilarl , licroscopic examilation of C. crle'tN leaf spot readily distinguishes it from 46 leaf smut (page 71), with which it may beconfused in certain localities. Spread and Control: Sources of primaryinfection are infected seed, alternate hostsand infected debris. Both fungi are controlledby use of clean seed, resistant varieties andapplication of benomyl sprays. References: I I, 27, 39, 55, 57, 63 47 , ' / Fi. 3 Fig. 3. Cercoasp ora canescens showing dark conidiophores and filiform conidia. 49 Funqul Discuses TARGET SPOT Causal agent: Corynespora cassiicola (=Cercosporu vignicola) Distribution and Importance: Very widely distributed on numerous host plant species; especially abundant in the tropics. Of minor importance to cowpea on which it develops late. Symptoms and Diagnosis: The lesions begin as clark reddish-brown circular spots, 1-2 mni diameter, which expand with narrow concentric banding to become large target spots, 15 mm i iameter (Plate 35). Such leaf lesions are often associated with veinal necrosis. The fungus sometimes produces lesions on petioles and sterns but these remain small (1-3 mm diameter) and do not show concentric banding. The early stages of target spot can be confused with Cercospora canescens infection, but the regular con­ centric banding of the lesions, and conidia and coniciophore characteristics (Figure 4) are diagnostic. Spread and Control: The conidia are wind-dispersed. The fungus is seed-borne and survives on host debris for LIp to two years. Various fungicides effectively control the disease, and sources of resistance are known. References: 8, 63 50 Fi Fig .I.Coty~e'sporacassilcola showing w,.,nidiophores and conidia i 1/ Fig. 5. Septot-la sp. aff: i'ignae showing section of pycnidium and filiform conidia. Fungul Di.secases SEPTORIA LEAF SPOT Causal agents: Septoria vignae and S. vignicola Distribution and Importance: Though S. vignicola is recorded from eastern Africa and India it appears to be less widely distributed and less important than .S. viyfnae, at least inthe savannah zones of tropical Atrica whereSeptoriu leaf spot can be damaging. Symptoms and Diagnosis: Lesions causedby S. v'ignae are dark red, circular to irregular, 2-4 mm diameter, appearing similar on bothleaf surfaces (Plate 36). Spots are often concentric ringed, and sometimes raised,giving the leaf a freckled appearance. Blackfruiting bodies (pycnidia) on the lesions con­tain septate (several celled), threadlike conidia (Figure 5). Species of the related Chletosepto-icu occur on cowpea leaves inNorth and Central America, whileAristUstoMU spp. in which the fruiting bodiesbear bristles, cause pinkish grey, spreading, and freckled lesions on cowpea leaves in southern Nigeria (Plate 37). Spread and Control: No information avail­ able. Likely to be seed-borne. There isevidence of varietal differences in suscepti­ bility in northern Nigeria. Reference: 63 53 '1 ~ 9 I * ~.. 4. "4 7,4' 54 4.-71 Fungal Diseases DA CTULIOPHORA LEAF SPOT Causal agent: Dactuliophora tarrii Distribution and Importance: A minoi leafspot, widely distributed in tropical Africa.Symptoms and Diagnosis: Leaf lesionslarge (up to about 3 cm diameter), withconcentric rings, and whitish on upper andoften pinkish grey on lower leaf surfaces(Plate 38). Lesions bear sclerotia. Spread and Control: No information. Reference: 20 55 56 Fungl DAseases WEB BLIGHT Causal agent: Corticiurn so/a/i (= Rhizoctonia sol/= Thuntatephorus cuculneris) Distribution and Importance: Worldwide; the Pathogen is probably present in all arable soils. Web blight of cowpea is especiallyprevalent in the humnid forest belt of WestAfrica where the disease can totally destroythe crop during periods of heavy rain.Symptoms and Diagnosis: Initialsymptoms on the leaves are small, circular reddish-brown spots which enlarge, becomingSuIrrounded by irregular shaped water-soaked areas. Under humid conditions, the lesions develop rapidly and coalesce (Plate 39), and mycelium of C. so/ani can be clearly observedon the undersu rface of leaves and on youngstems. The initial discrete leaf lesions may beconfuseCd with those induced by Cercospora cunescens (page 46), but the subsequent spreading lesions are characteristic of web blight. Spread and Control: The pathogen sur­vives as sclerolia in soil and on crop residues and weed hosts. Inoculum , which can beseed-borne, is primarily from soil splashed onto basal leaves during heavy rain. The useof clean seed and cultural methods (avoidance of dense plantings, and sowing timed to avoid 57 peak rainfall periods) offer the best means of control. Low levels of resistance occur but are insufficient alone to control the disease. Chemical control is feasible but uneconomic. References: 24, 63 59 Fig. 6. Ascochytaphaseolorum showing section of pycnidium and 2-celled, ovoid conidia. Fungul Diseuses ASCOCHYTA BLIGHT Causal agent: Ascochyta phaseolorurn Distribution and Importance: A major disease of cowpea (and many other legumes) under humid conditions at medium elevations in eastern Africa and in Central Arnerica. Often devastating, causing extensive defoliation. Symptoms and Diagnosis: Young leaf spots are irregularly circular with grey to brown centers surrounded by a yellow halo. Such lesions become zonate and, under favor­ able conditions, spread rapidly causing exten­ sive blighting of leaves, pods and stems. The large, concentrically ringed lesions are characteristic (Plate 40). Dark pycnidia are immersed in the host tissue; these contain 2-celled ovoid coniidia (Figure 6). Spread and Control: Seed-borne; and pro­ bably survives on infected plant debris. The disease spreads more rapidly in mono-culture than when inter-cropped with maize which may act as a barrier to spread. Though some cowpea varieties possess low levels of resistance, the use of clean seed and cultural practices such as rotation are recommended control measures. References: 2, 22, 47 61 62 BROWN RUST Causal agent: Uromyces appendiculatus (=U.vigne =A ecidiurn caulicol) Distribution and Importance: Worldwide. Highly susceptible lines can be almost com­pletely defoliated by mid-flowering time so that yield loss is probably severe. Symptoms and Diagnosis: PustICs deve­lop or, both leaf su rfaces, releasing powdery, reddish-brown uredospores (Plate 41 ). The pustuiles may be suirrounded by yellow haloes,then by rings of secondary pustules. The color of the pLIstIles becomes black as the pig­ mented teleutospores develop. The aecidial (ro itirg) stage occasionally causes a basal stem rust disease. Spread and Control: RuSt is not seed­borne. The dispersal of rust is favored by clouidy, Iihuniid weather with heavy dfew aind teriiperatures of 21-27°C. Uredospores are disseminated principally by wind. Tele­ outospores may play a role in sI rvival. Al th ough soriie control of rust may be achieved by benoriyl sprays, the use of resistant varieties is the best control measure, though the presrIIce of numerous pathogenic races complicates resistance breeding. Relerence: 19 63 64 Fungal Diseases PINK RUST Causal agent: Phakopsora pachyrhizi Distribution and Importance: P. pachyrhizi is widely distributed in Africa and Asia and theCaribbean on soybean, cowpea and otherlegumes. Apparently of minor importance on cowpea, though early infection causes pre­ mature defoliation. The disease is moredamaging during the rainy seasons in southern Nigeria. Symptoms and Diagnosis: Lower leaf sur­faces bear numerous pinkish tan colored, conical, protruding pustules which contain the colorless uredospores; angular lesions occur on upper leaf surfaces (Plate 42). Pink rust may be confused with bacterial pustulk(page 84) in the field, and microscopic examination may be heipfui. Pink rust lesions are neither greasy (like bacterial pustule) nor powdery (like brown rust). Spread and Control: No information. Studies on P. pachyrhizi on soybean indicate th.L the pathogen survives on infected volunteer plants and on alternate hosts. P. pachyrhizi is probably not internally seed­borne. Various chemicals have been effectively used as sprays and seed treatments including benomyl, maneb, mancozeb and ineb.Varieties differ in susceptibility but P.pachyrhizi is pathogenically variable. References: 16, 56 65 67 FungalDiseases FALSE RUST (YELLOW BLISTER) Causal agent: S-ynchytrium dolichi Distribution and Importance: Widespread on cowpeas in tropical Africa and Asia. Of minor, local importance when it can be damaging (c.g. in Uganda). Usually develops late in the development of the crop. Symptoms and Diagnosis: The first symptoms are pin-head yellow blisters, slightly greasy in appearance, which rapidly spread to cover leaves, petioles, peduncles, pods and stems. Later the blisters burst, releasing orange brown sporangia (Figure 7), ultimately leading to the development of raised warty orange brown scabs (Plate 43). The disease often causes considerable dis­ tortion of the plant. Spread and Control: The pathogen is probably not seed transmitte'd. False rust may be controlled by destruction of crop residues, rotation and by mancozeb (= Dithane M45) s1 ray s. References: 26, 38 68 Fig. 7. . vn 0triwn dolichi showing thick-walled sporangia. Fig. 8. Colletotrichum truncatum showing numerous setae and boat-shaped conidia. Fungal DiMeeus BLACK SPOT (LEAF SMUT) Causal agent: Protomycopsis phaseoli (=Ent,oma vignae) The taxonomy of the causal fungus is controversial. Distribution and Importance: P. phaseoli is widely distributed on cowpeas in tropicalAfrica and Jamaica, and on cowpeas, beansand other legumes in India and Nepal. Thedisease is of major economic importance on cowpea in Brazil where yield losses of 30-40 percent are reported. Symptoms and Diagnosis: Dark ash-greyto sooty-black circular discrete leaf spots 6-8 mm diameter, surrounded by narrow yellowhaloes (Plate 44). The leaf spots enlarge (to 10"­mm or more), becoming greenish-grey, irregu­lar and diffuse; severe infections cause pre­ mature defoliation. The presence of thick­ walled, dark and warty chlamydospores in infected tissue isdiagnostic. Spread and Control: The chlarn', dospores survive in plant debris for at least two yearsbut lose their viability when buried. Thefungus is not seed-borne. Control measures would include rotation, destruction of crop residues, and the use of fungicides. Resistant varieties have been identified in Brazil. References: 12, 13, 35, 37 71 72 Futnyql,"D eut,es POWDERY MILDEW Causal apen t: Erysiphe polygoni (= Oidiurn sp.) Distribution and Importance: Worldwide; apparently of greater importance in tropical America and India than it is in Africa. Disease severity often greater under ordry shady conditions. Symptoms and Diagnosis: M'yceliurn forms SLiperficial, scattered, spreading patches, it whitefirst turning greyish, onleaves and other plant parts (Plate 45). Un­ mistakable. Spread and Control: Not known; not seed-borne. 15. polvyotii is known to be toleranift of low Iiurnidity. SLrvival possibly asinycel iurn, or as act iVe i onsfecCtii on vol unIiteer plants. Resistant varieties are available but races exist. Rc tcceICS: 15, 60 73 74 1-angal DA-scse-s LAMB'S TAIL POD ROT Causal agents: Choanephora cucurbitarumn and C infundibulifera Distribution and Importance: Reported from Nigeria, India, andU.S.A. Brazil. Of occa­ sional, local importance under humid condi­ tions. Infection usually follows insect damage(e.g. cowpea curculio, larutica;see page 13). Symptoms and Diagnosis: Initial symptoms appear as water-soaked areas on pods, subsequently developing into a wet rot affecting both young and mature pods. Diseased pods bear luxuriant whitish growth of the causal fungus which produces black­ headed pin-like sporing struIctures (Plate 46). The disease may affect also flowers and stems. BotoYtis sp. causes a pod rot of irrigated cowpea in Brazil. Spread and Control: Spread is favored by high humidity and pod borer clarnage. It is probable that timely planting and use of insecticides would control the disease. References: 10, 36, 54i, 66 75 -- .J~ ~ 'I ­ '1* 76 77 Fungal Diseuses COLLETOTRICHUM BROWN BLOTCH Causal agents: ColletotrichurM capsici and C. truncatm Distribution and Importance: The pathogens are widely distributed fungi in the tropics and sub-tropics. Brown blotch of cowpea is a newly recognized disease inNigeria where it may c;iuse singificant losses especially from pod infection. Brown blotch has also been observed in Upper Volta and Zambia. Symptoms and Diagnosis: Purplish brown discoloration of petioles, leaf veins, stems, peduncles and, especially pods (Plate 47). Discoloration may be accompanied by cracking of stems. Pod infection leads to distortion and maldevelopment of pods which bear black fruiting bodies of the causal fungi. Symptoms first appear either at the stem base before flowering, or on pedicels (floral cushion) following flowering, the latter being characteristic. C. lindemuthianum (page 36) also occurs on cowpea pods but the brown blotch fungi differ in that their conidia are boat-shaped (Figure 8 ). Spread and Control: The disease is seed­borne, and the pathogens probably also sur­ vive on infected plant debris. There is evidence that cowpea genotypes differ in susceptibility. Reference: 9 78 79 Fungal Diseases SCAB Causal agent: E/sinoe phaseo/i Distribution and Importance: Reported from East Africa and Central America; severe damage of cowpea in Surinam. A very similar disease, whose cause is presumed to be E-/loe, causes extensive damage to cowpea crops in northern Nigeria. E. phuseofi also causes scab of lima bean and bean. Symptoms and Diagnosis: Scab infections in Nigeria lead to development of silvery grey, circular to oval lesions on stems, petioles, peduncles and pods (the latter are especially damaging) (Plates 48, 49). In severe in­ fections, such lesions coalesce, causing dis­ tortion. Leaves of diseased plants are often cupped and bear numerous small whitish scab lesions along the veins. The stem symptoms can be confused with anthracnose (page 36) but are greyish not tan-brown, and are more often circular. Cladosporium vignae also causes ascab of cowpea. Spread and Control: The pathogen has been detected within the seed coat and on its surface; 't survives on host debris and air dispersal is also suspected. Rotation, sanita­ tion and seed treatment are control measures. Cowpea lines diffe in scab susceptibility. Reference: 46 80 *7f / 1 BacterialDiseases BACTERIAL BLIGHT (CANKER) Causal agent: Xanthomonas vignicola Distribution and Importance: A widespread and important disease of cowpea in tropical Africa, America and India. Seedling mortality resulting from seed-borne infection may be upto 60 percent. Yield losses from field in­ fection have not been estimated. Symptoms and Diagnosis: The initialsymptoms of bacterial blight are tiny water­ soaked dots on leaves. These dots remain small and the surrounding tissue dies, deve­loping a tan to orange coloration with ayellow halo (Plate 50). On heavily infected leaves the dead spots merge so that large areas of leaf are affected. The pathogen also infects the stem, causing cracking (stem canker), and causes water soaking of pods from where the pathogen enters the seed. Spread and Control: The disease spreads rapidly during heavy rainfall, and during overhead irrigation. The pathogen is seed­borne, and probably survives on diseased crop residues. Methods of control include the use of clean seed and of resistant varieties. References: 33, 40, 59, 63 82 b ­ 83 Bacterial Diseases BACTERIAL PUSTULE (BACTERIAL SPOT) Causal agent: Xanthomonas sp. Distribution and Importance: A widespread disease of both wild and cultivated cowpea in Nigeria. The disease occurs in Tanzania and apparently also in Brazil. Bacterial pustule appears to be less well adapted to the drier savannah regions of West Africa than is bacterial blight. Symptoms and Diagnosis: The symptoms begin as tiny dark water-soaked dots on the undersurface of leaves. On susceptible varieties the dots enlarge to become circular spots (1-3 cm diameter) which, when young, appear as raised dark water-soaked pustules on the lower surface of the leaf (Plate 51) and as dark brown necrotic spots on the upper surface (Plate 52). Older, larger pustules become dry and sunken in the center, and water-soaked around the margin. Heavily in­ fected leaves turn yellow and fall. Bacterial pustule is sometimes confused with pink rust (page 65) but careful examination (.eg. with a hand lens) revedls the conical, not greasy, pustules of the latter. Spread and Control: The disease spreads rapidly during rainy weather and by overhead irrigation. The pathogen is seed-borne. Re­ sistant varieties are available but there is evidence that some sources of resistance are race-specific. References: 34, 63 84 85 VIRUS DISEASES Causal agents: Numerous viruses cause mosaic diseases and mottle symptoms in cowpeas. Generally, the causal viruses cannot be identi­ fied from field symptorns; accurate diagnosis requires specialist knowledge and facilities (serology, electron microscopy). For this reason, and through con fusion over virus names, records are often unreliable. Some of the more important cowpea viruses are described below; details of others are summarized in Appendix 2. COWPEA (SEVERE) MOSAIC VIRUS (CSMV) Distribution and Importance: Widespread in tropical and sub-tropical America. In Brazil, yield losses of 60-80 percent are caused by CSMV. Symptoms: A range of mosaics (Plate 53). Spread and Control: Sap, and seed-borne (10 percent) and transmitted by several beetles including Ceratoma spp.. Phaseolus lath vroides and other common weeds in tropical America may act as reservoirs of CSMV. Resistant cowpea varieties are avail­ able. References: 1,7,21,41 86 L I, 'N 4' ~ ~A ~ 87 COWPEA (YELLOW) MOSAIC VIRUS (CYMV) Distribution and Importance: Known from East (Kenya, Tanzania) and West (Nigeria, Togo) Africa; essentially an African virus though occasionally reported from America (Surinam, U.S.A.). CYMV CauseS yield losses of 80-100 percent; the earlier the infection the greater the yield loss. Symptoms: l)ifclerent virus isolates and different coWpeCa cultivars show different symptoms with systemic reactions ranging from inone, or 11ninconsp iCiuou s green mott-,, to severe mosaic, h.al distortion and blistering (Plate -54), and death of the plant. Spread and Control: CYMV is readily sap transrnitted and is seed-borne at a low level (1-5 percCrLt); but little initial seed-borne infection ralidtly spreads thIirough entire crops th rough tile activity of the chief vector, Oothecu mulbiis (page 7). Other beetles, grasshop pers and thrips are also reported to be vectors. Control is best achieved th rougil gr-owing resistant varieties. Rt ltIcrlcs: 3, 61, 65 88 'ij1 89 Virus Diseases COWPEA APHID-BORNE MOSAIC VIRUS (CAMV) Distribution and Importance: The most wide­ spread cowpea virus. Reported from U.S.A., Europe, Africa, the south-west Pacific and Australia. Within Africa, CAMV is known from Kenya, Tanzania, Uganda, Zambia, Nigeria, Morocco, and Egypt. Yield losses of 13-87 percent are reported from Iran. Symptoms: Various mosaics and mottling. Some strains of CAMV produce characteristic green-vein banding (Plate 55), but this is not sufficient for accurate diagnosis. Spread and Control: Sap, seed (0-40 percent) and aphid-transmitted. Resistant varieties are available. ReferencC5: 4, 17, 18 90 91 Virus Diseases COWPEA GOLDEN MOSAIC Distribution and Importance: Nigeria; severe crop loss in SUScC)tible cultivars. Similar diseases occur in Niger, Kenya, Tanzania andPakistan, but their relationships are unknown. Symptoms: In south eastern Nigerid, naturally infected plants are an intense yellow color, their leaves are distorted and blistered and plants are stunted (Plate 56). Less susceptible varieties exhibit varying degrees of chlorotic blotching and leaf distoi lion. Similar symptoms occur in Tanzania (Plate 57). Spread and Control: Neither sap nor seed transmitted, but is spread by whiteflies (Bernisia sp.). Sources of resistance have been identified. References: 15, 28 92 93 Paru itc Higher Iaunts WITCHWEED Striga gesnerioides Distribution and Importance: Widespread and locally important throughout the Sudan Savannah zone of West Africa. Host range includes groundnut and tobacco (witchweeds of cereals belong to different species).- Symptoms and Diagnosis: This higher plant parasite (Scopliriaceae) has pink to mauve flowers (Plate 58). It causes yellowing between the veins of cowpea foliage, leading to premature wilting and collapse of plants, especially vhere soil moisture is limiting. Vascular tissues of affected plants are dis­ coldred (see Fusariutn wilt, page 43). A related species, Alectru voge/ii, with yellow flowers (Plate 59) also parasitises cowpeai. Spread and Control: Survives in soil nd on alternate hosts. Cultural control involves crop roiation; trap crops are useful in the control of cereal witch weeds. Chemical fumigants are available but unlikely to be economic. The gall forming weevil, Smicronyx sp., may reduce Siriga seed pro­ duction thereby exeting a biological control in the absence of insecticide. Cowpea cultivars apparently differ in their susceptibiity. Referene: 32 94 Non-ParasiticDisorders CALCIUM DEFICIENCY Occurrence: On acid soils (critical concentra­ tion = 2.5 mg/g D.M.) Symptoms: Necrosis of leaf margins, crinkling of the youngest leaves (Plate 60), and petiole collapse. MAGNESIUM DEFICIENCY Occurrence: On acid soils, limed acid soils, and under high potassium ferti­ lization (critical concentration 1.0 mg/g D.M.) Symptoms. Yellowing between veins of older leaves (Plate 61 ).(c.f. chlorosis on young leaves caused by manganese deficiency, page 100). SULPHUR DEFICIENCY Occurrence: On savannah soils low in organic matter. Symptoms: Young leaves become light green to purple in color (Plate 62). 96 97 Non-Parasitic Disorders PHOSPHORUS DEFICIENCY Occurrence: On soils low in phosphorus, or high in phosphorus sorption (critical concentration = 2.0 mg/g O.M.). May be induced by aluminium toxicity. Symptoms: Plants stunted, dark green (see under aluminium toxicity). MOLYBDENUM DEFICIENCY Occurrence: On acid soils Symptoms: Youngest leaves light green, malformed ("Whip tail") (Plate 63). IRON DEFICIENCY Occurrence: On calcareous and alki ne soils, induced by excess manganese. (critical concentration = 70 ppm.). Symptoms: Chlorosis of the youngest leaves (Plat,,"64). 98 lb Non-ParasiticDisorders MANGANESE DEFICIENCY Occurrence: On acid, sandy soils Symptoms: Interveinal chlorosis of the younger leaves (Plates 65, 66). (c.f. chlorosis on older leaves caused by magnesium deficiency: page 96). MANGANESE TOXICITY Occurrence: On acid soils, soils acidified through bad management, use of acidifying fertilizers, such as ammonium sulphate, (critical concentration 1500-2000 ppn). Symptoms. Young foliage light green, becoming crinkled and necrotic; older leaves often bear brown spots (Plate 67). ALUMINIUM TOXICITY Occurrence. On strongly acid soils (pH 4.5 or less). Aluminium saturation 40 percent. Symptoms: Plants dark green and stunted resembling phosphorus de­ ficiency, showing interveinal chlorosis of older leaves (Plate 68). Root system compacted. 100 101 Non-Purusitic Diorders SUN SCORCH Occurrence: On relatively fertile soils and especially leafy cultivars, when bright sunlight follows overcast conditions. Symptoms: Purplish brown and sharply defined necrotic patches onlower surfaces of leaves whichhave become curled (Plate 69). 102 Appendices AIppendi,\ I. Collection and Preparation of Plant Disease and InsectSpecimens for Identification Accurate identification is frequently impossible without good specimens for laboratory examination.Proper collection and preparation of specimens fordispatch tc specialists isimportant; recommendations follow. Collection and preparation of specimens affected byfungal and bacterial disease and pest damaged material. Collect only the affected plant part. In the case ofwilts and root rots, though the leaves show symptoms, the affected parts are the roots and lower stem and isit these that require examination.Collections should be generous; it is better to have too many specimens than too few. Collections shouldinclude a representative range of symptoms. The material should be flatpressed between sheets of newspaper and dried out (inthe sun, or cool oven inhumid climates), the paper being changed daily. Do not use polythene bcqs unless the specimen will reuch the luboratoO , witin 24 hours. Collection and preparation of virus infected material Collect specimens showing a range of symptoms fromboth young and mature tissue of several host plant varieties. Place each collection into a separatepolythene bag and labei it. To prepare for shipment,finely cut the leaves of each collection (isolate) and spread the pieces evenly over a nylon gauze covering alayer of anhydrous calcium chloride granules in apetri dish. Seal the dish with adhesive tape and keep 103 --- in a refrigerator at 5C for at least a week (Bos*). The crisp leaf material may then be transferred to dry polythene bags for dispatch. If longer storage is required, the dried material may be placed in a test tube on a wad of cotton wool above CaCI 2 . For periods of up to one week, virus diseased material can be kept fresh by wrapping in dry newspaper with silica gel, and enclosing the 'parcel' in a dry polythene bag. Collection arid preparation of insects. All insects, except adult beetles, butterflies and moths which are dried, are best preserved in 70 percent alcohol in tubes. Insect collections should be made at dawn, dusk or mid-day, according to the species (leafhoppers, flies and foliage beetles early morning; parasites, predators and pollinators -- mid­ day; pod- sucking bugs and adult lepidopterans --at evening). Collection techniques include use of sweep nets, aspirators and light traps. Dispatch of specimens. Each specimen should be labelled, herbarium material packaged in envelopes, and accompanied by relevant info mation including name of host and variety, locality, date of collection and collector's name. *Bos, L. CaCl 2 storage of virus-infeCLted plant materi-;. I.P.O., Wageningen (Mimeo). 104 Dead specimens (e.g. insects in alcohol) may be dispatched without restriction, but viable pathogens cannot be sent outside the country of collection without a special permit, for reasons of quarantine legislation. However, there are certain centers outside the tropics which operate an identification service (often for a lee); these include: The Commonweal th Mycological Institute Ferry Lane Kew, Surrey England (for fungi and bacteria) The Commonwealth Institute of Entomology British Museum (Natural llistc:;y) Cromwell Road London, SW7 England (for insects) The Commonwealth Bureau of Helminthology 103 St. Peter's Street St. Albans, Hertfordshire England (for nematodes) No such service is currently available for viruses. 105 Appendix 2. Other Cowpea Viruses Name Cov, pea mottle Southern bean mosaic Cowpea chlorotic mottle Cucumber mosaic Cowpea ringspot Cowpea banding mosaic Sun-hemp mosaic Cowpea mild mottle Distribution Nigeria West Africa; America America Worldwide I ran India Worldwide Africa Importance (Crop loss, %) 50? ? ? ? 40 56 Negligible (Vector) Beetle Beetle Beetle Aphid ? Aphid ? ? Spread (Seed trans., %) 3-10 1-4 0 4-26 15-25 15-31 4-20 90 Controi Tolerant varieties Resistant varieties Resistant v,,rieties ? Seed treatment? ? ? * Singh, S.R. and Allen, D.J. Pests, diseases, resistance and protecrion in Prc.Int'l. Legaune Con;. Kn, 1-978 (in press) Viqna unguiculata. App'Wendi 3. Insecticides Pest control in cowpea is best achieved through anintegrated appro,,ch combining the ofuse insect resistant cultivars and appropriate cultural practices with minimum insecticide application. Currently effective pesticide chemicals, and the crop growthstage at which they should be applied, are as follows:Foliage pests (including leafhoppers, aphids,foliage beetles and lepidopterans): Dimethoate,fenitrothion and endosulfan at preflowering stage.Flower bud and flower pests (flower thrips, podborers): Monocrotophos, methomyl, chlorpyrifos, surecide and synthetic pyrethroids at flowering.Pod pests (pod borers, pod sucking bugs):Methumyl, surecide and synthetic pyrethroids applied post-flowering. Storage pests (C/osobruchus).. Phostoxintablets, actellic and groundnut oil applied to seed post-harvest. Dosages of insecticides are usually about SOOg a.i./ha/application. Synthetic pyrethroids are applied at lower rates. 107 Appendix 4 Sources of Host Plant Resistance* Pest/Disease Leafhoppers Aphids Flower thrips Maruca Cowpea storage weevil Anthracnose, rust, cercospora leaf spot, bacterial pustule + cowpea (yellow) mosaic Cowpea (yellow) mosaic, cowpea mottle, cowpea aphid-borne mosaic, southern bean mosaic +cowpea golden mosaic Fusarium wilt Root knot *See reference number 16 Source TVu's** 59, 123, 662, 1509; VITA-3 (foliage resistance). TVu's 310, 408-2, 410, 801, 2755, 3273; VITA-1 (foliage resistance). TVu's 1509, 2870, 6507, 7133 (flower bud resistance). TVu 946 and VITA-5 (stem and peduncle resistance). TVu 2027 (seed resistance) TVu's 625 and 4200 (pod resistance). TVu's 310, 345, 347, 393, 410, 645, 697, 990, 1283, 1452, 1980, 2755, 3415, 3563; VITrA's 1 and 3. TVu's 493, 1185, 2755 TVu's 109-2, 347, 984, 1000, 1016-1 TVu's 264-2, 401, 857, 1560 *'TVu (Tropical Vi'nu unguicul'ta) numbers, as used at IITA. 108 Refercnces 1. 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Wheeler, B.J. (1969). An itiroduction,to plat,,diseases. E.L.B.S. and John Wiley, London, 379 pp. 61. Whitney, W.K. and Gilmer, R.M. (1974). Ann. app. Biol. 77, 17-21.62. Williams, R.J. (1975). Pl. Dis. Reptt. 59, 245-248. 63. Williams, R.J. (1975). PANS. 21, 253-267.64. Williams, R.I. and Ayanaba, A. (1975). PhYtoPathology 65, 217-2 18. 65. Williams, R.I. (1977). -rop. Agric. (Trin.). 54, 61-68. 66. Wilson, K.l. and Jose, P.C. (1968). lIdianPhytopath. 21, 130-131. 113 Acknowledgements Much of the substance of the section on cowpea diseases is based upon the pioneering contribution of Dr. R.J. Williams, formerly ofIITA, and extensive reference has been made to his review paper (63). This debt is grate­ fully acknowledged. We also thank our numerous colleagues at IITA, particularIy Dr. Peter R. Goldsworthy and Mr. Jack Owen who have contributed ideas, information or constructive criticism of the text. In particular, we should like to thank Dr. W. Horst for his contribution on non-parasitic diseases. Many of the figures have been redrawnfrom the Commonwealth Mycological In­ stitute's Descriptions of Plant Pathogenic Fungi -nd Bacteria. We are grateful to the CMI for permission to use these illustrations. Mr. Benson Fadare has assisted in much ofthe photography for the plates. Other photo credits are as follows: V.D. Aggarwal: 38; D.J. Allen: 36, 37, 40, 42, 43, 44, 52, 55; T.L.Chester: 13, 20; P.R. Goldsworthy: 53; W.Horst: 39, 60, 61,63, 64, 65, 66, 68, 69; B.T.Kang: 62; J.B. Smithson: 15, 24, 41, 48, 57, 58, 59; H.J. Vetten: 56; H.C. Wien: 67; R.J.Williams: 23, 25, 26, 27, 28, 29, 30, 32, 33 34, 35, 46, 50, 51, 54. S.R. Singh and W.K.Whitney are responsible for plates 1-12, 14, 16-19, 21-22.