Incidence of monkey´s hand in maize germplasm from different locations in Mexico

Márquez-Diego, José Jesús; León-García de Alba, Carlos De; Rojas-Martínez, Reyna Isabel; Rodríguez-Maciel, J. Concepción; Nava-Díaz, Cristián; Márquez-Diego, José Jesús; León-García de Alba, Carlos De; Rojas-Martínez, Reyna Isabel; Rodríguez-Maciel, J. Concepción; Nava-Díaz, Cristián

doi:10.18781/r.mex.fit.2204-1

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Revista mexicana de fitopatología

versión On-line ISSN 2007-8080versión impresa ISSN 0185-3309

Rev. mex. fitopatol vol.40 no.3 Texcoco sep. 2022 Epub 14-Nov-2022

https://doi.org/10.18781/r.mex.fit.2204-1

Phytopathological notes

Incidence of monkey´s hand in maize germplasm from different locations in Mexico

José Jesús Márquez-Diego¹

Carlos De León-García de Alba¹^*

Reyna Isabel Rojas-Martínez¹

J. Concepción Rodríguez-Maciel²

Cristián Nava-Díaz³

^¹ Programa de posgrado en Fitosanidad-Fitopatología Campus Montecillo, Km 36.5 Carretera México-Texcoco. Montecillo, Edo. de México, México, CP 56230.

^² Programa de Posgrado de Fitosanidad-Entomología Campus Montecillo, Km 36.5 Carretera México-Texcoco. Montecillo, Edo. de México, México, CP 56230.

^³ Colegio de Postgraduados, Campus Montecillo, Km 36.5 Carretera México-Texcoco. Montecillo, Edo. de México, México, CP 56230.

Abstract

The incidence of maize monkey´s hand disease was determined in nine states of the Mexican Republic. The evaluation sites were georeferenced, and incidence was estimated along with the farmers to determinate the identity of the germplasm used. Monkey´s hand was found affecting maize plants in localities of the States of Puebla with an incidence of 24%, Hidalgo (17.05%), Morelos (11.7%), Chiapas (7.28%), Tlaxcala (7.0%), Oaxaca (6.5%), Veracruz (6.3%), Mexico (6.2%), and Jalisco (3.0%). Data showed a low but positive correlation (r= 0.30) between altitude and incidence. Native germplasm is more susceptible to the monkey´s hand disease than improved germplasm.

Key words: monkey’s hand; maize diseases; bouquet ears

Resumen

El objetivo de esta investigación, fue determinar la incidencia y distribución de la enfermedad mano de chango en maíz en nueve estados de la República Mexicana (Tlaxcala, Puebla, Edo. de México, Hidalgo, Veracruz, Morelos, Oaxaca, Chiapas y Jalisco). Los sitios de evaluación se georreferenciaron, se estimó la incidencia y se realizó una encuesta con los productores para determinar la identidad del germoplasma utilizado. La mano de chango se encontró afectando plantas de maíz en localidades de los estados de Puebla con incidencia de 24%, Hidalgo (17.05%), Morelos (11.7%), Chiapas (7.28%), Tlaxcala (7.0%), Oaxaca (6.5%), Veracruz (6.3%), Edo. de México (6.2%), y Jalisco (3.0%). Los datos mostraron una correlación baja, pero positiva (r=0.30) entre la altitud y la incidencia. Observaciones indicaron que el germoplasma nativo es más susceptible a la enfermedad que el mejorado.

Palabras clave: de mazorcas; enfermedades de maíz; “bouquet ears”

Since 1997, maize cultivation has ranked first in planted area and production worldwide (^{CIMMYT, 2019}). In 2021, 8.5 M ha were planted in Mexico with a per capita consumption of 297 kg. Despite the national importance of maize, the average national production is 3.47 t ha^-1, lower than the world average of 5.38 t ha^-1 and well below that of the United States of America, which produces an average of 10.96 t ha^-1 (^{CIMMYT, 2019}). Mexico is one of the major importers of maize. In the 1980s, it imported 3 Mt, an amount that increased to 5 Mt in 2000 (^{Reyes-Santiago et al., 2022}). A record of more than 17 M t were imported in 2018 (^{CEDRSSA, 2019}) and more than 16 M t in 2020 (^{SIAVI, 2021}). In 2021, Mexico used more than US $5000 000 to purchase white and yellow maize (^{GCMA, 2022}).

One of the several maize diseases includes the Multiple Ears on Same Shank syndrome (^{Bonnet, 1966}), known as MESS (^{Nielsen, 1999}), or Bouquet Ears (^{Nielsen, 2014}). There are only a few reports of this condition, all from recent years, due its low incidence and importance (^{Ortez et al., 2022}). Moreover, its etiology has not been determined yet (^{Elmore and Abendroth, 2006}; ^{Ciampitti, 2014}; ^{Thomison and Geyer, 2015}; ^{Moghadam et al., 2022}).

In Mexico, in 1991, an abnormality was recorded in maize plants involving the development of multiple ears from the main one. ^{Cruz (1991}) called it “maize’s little hand” (manita del maiz), while ^{Hernández (1993}) ruled it out as an important disease. ^{Aguilar and Molina (1996}) determined a correlation between the use of seeds from symptomatic plants and the incidence of this condition, ruling out that the application of fungicides could reduce the symptoms. In 2010, in a study carried out in Veracruz, Mexico, the symptom of multiple maize ears was reported in association with the phytoplasma “maize bushy stunt” (^{Alcántara-Mendoza et al., 2010}). ^{Marquez-Diego et al. (2021}) indicated that producers call this condition “monkey´s hand” (Figure 1) and determined that plants with this symptom show a decrease in grain yield ranging from 20 and 86%, depending on the germplasm evaluated. ^{Singh and Pooja (2008}) also argued that the incidence of this condition depends on the genetic material. ^{Ortiz et al. (2022)} found that plants with these symptoms lose between 30 and 90% of their grain. The present study aimed to determine the incidence and distribution of maize plants with symptoms of monkey´s hand at different altitudes and for different germplasms used by farmers.

Figure 1 Symptom associated with ‘monkey´s hand’ in maize ears.

The study was conducted in nine states of the Mexican Republic, including Tlaxcala, Puebla, State of Mexico, Hidalgo, Veracruz, Morelos, Oaxaca, Chiapas and Jalisco, during the 2021 autumn - winter season. Commercial plots of maize in stage R1 (^{Ritchie et al., 1986}) or later, were selected. Producers were interviewed to learn about the germplasm they had used. In each locality, the geographic coordinates, meters above sea level (masl), genetic material and incidence of the monkey´s hand symptom were determined in 100 plants in each of four rows in the center of the plot. The incidence per plot was estimated from four repetitions of 100 plants in each of the plots, using the formula:

I (%)= n/N *100

Where: I=incidence, n= number of plants with symptoms, N= total plants evaluated.

The incidence of the disease was associated with altitude (masl) using the covariance and correlation test. The incidence between native varieties and improved varieties was compared. The differences between the sampled states were compared using the Kruskal-Wallis test due to the abnormality of the data.

In studies carried out in India, Singh and Pooja (2010) reported that the “bouquet ears” disease had increased both in distribution and incidence. This information coincides with reports from farmers about a significant decrease in yield associated with the disease. In Mexico, initial reports described it as a symptom of little economic importance (^{Cruz, 1991}; ^{Hernández, 1993}; ^{Aguilar and Molina, 1996}). However, Márquez et al. (2021) documented losses of up to 86% in plants with symptoms (with variations according to the genetic background) in the Mezquital region, in the state of Hidalgo. The data collected in the present study showed a similar behavior (Table 1). It was observed that, in 72 of the 74 localities sampled in the country, the incidence of symptoms indicated that the monkey’s hand was distributed in all the sampled states. Only the hybrid Aspros Gladiador and the native variety in Tlaxcala and Ciudad Mendoza, Veracruz, respectively, did not show symptoms of deformation.

^{Elmore and Abendroth (2006}), ^{Alcántara-Mendoza et al. (2010}) ^{Thomison (2015}), ^{Sravani et al. (2021}), ^{Márquez-Diego et al. (2021}), and ^{Moghadam et al. (2022}) reported that the incidence of this disease depends on the germplasm used. In the present study, the native varieties showed a higher incidence of monkey´s hand symptom, with a mean of 12.06a, than the improved varieties, with 7.53b (χ² = 0.0367) (Table 2). Variations in incidence were observed in the different states sampled. The most affected states were: Puebla, with a percentage greater than 24a, Hidalgo (17ab) and Morelos (11.7b). The states with the lowest incidence were Chiapas (7.2b), Tlaxcala (7.0b), Oaxaca (6.5b), Veracruz (6.3b), State of Mexico (6.2b), and Jalisco with 3.0b % (DMS 5 %: 4.537).

Table 1 Incidence of ‘monkey’s hand’ symptoms in maize plants in different locations in Mexico.

Estado	Localidad	Coordenadas	Msnm	Germoplasma *^a	Incidencia*^b
Tlaxcala	La Venta	19°33'28.2"N 98°42'16.4"W	2785	Nativo morado	12.5
	La Venta	19°33'56.5"N 98°41'04.2"W	2780	Nativo	13.0
	Calpulalpan	19°35'05.7"N 98°37'44.9"W	2618	Trébol amarillo	0.25
	San Felipe Sultepec	19°35'19.8"N 98°37'02.2"W	2600	Nativo	11.25
	Calpulalpan	19°35'35.7"N 98°35'26.2"W	2620	Nativo	4.0
	Calpulalpan	19°36'30.9"N 98°33'37.8"W	2600	Nativo morado	16.5
	Tlaxco	19°37'11.3"N 98°07'44.8"W	2550	Local	0.5
	Tlaxco	19°36'16.7"N 98°09'10.0"W	2500	Aspros Gladiador	0
	Tetlán de Solidaridad	19°28'35.4"N 98°02'55.5"W	2400	Asgrow H48	5.75
Hidalgo	Emiliano Zapata	19°40'05.8"N 98°33'01.3"W	2500	Nativo	9.5
	Tlanalapa	19°49'40.3"N 98°35'26.2"W	2450	Cacahuacintle amarillo	21.75
	Singuilucan	19°56'06.0"N 98°33'34.5"W	2580	Nativo	23.5
	Cinta larga	20°11'20.7"N 99°13'25.9"W	2005	Nativo	14.0
	Cinta larga	20°11'20.7"N 99°13'25.9"W	2005	Aspros Hc8	16.5
Puebla	Chignahuapan	19°49'20.9"N 98°01'32.9"W	2670	Nativo	22.0
	Chignahuapan	19°47'06.4"N 98°02'20.7"W	2670	Nativo	12.75
	Camino Chignahuapan- Tlaxco	19°44'54.8"N 98°03'26.0"W	2300	Asgrow Rinoceronte	6.00
	San José Chiapa	19°14'11.3"N 97°44'52.4"W	2380	Asgrow H48	39.75
	Sierra de Soltepec	19°06'00.9"N 97°40'03.5"W	2355	Nativo	36.25
	Cerca de Nicolás Bravo	18°40'05.9"N 97°22'15.1"W	2620	Híbrido	3.75
	Cañada de Morelos	18°44'46.1"N 97°24'59.3"W	2323	Nativo	42.25
	Palmar de Bravo	18°50'19.0"N 97°31'15.8"W	2199	Nativo	30.0
Morelos	Ayala	18°46'23.6"N 98°53'48.7"W	1147	Antílope	2.0
	Tlayecac	18°45'24.1"N 98°52'16.7"W	1360	Nativo	7.75
	Jantetelco	18°44'33.3"N 98°50'10.4"W	1436	Asgrow Berrendo	24.25
	Jantetelco	18°43'17.1"N 98°50'58.4"W	1430	Unisem Ares	0.75
	Yecapixtla	18°53'26.0"N 98°52'51.3"W	1500	Dekalb 2037	27.5
	Atlahuacán	18°57'47.2"N 98°52'22.2"W	1610	Brevant B3916	8.0
Oaxaca	Tuxtepec	18°08'29.8"N 96°10'59.9"W	20	Nativo	11.5
	Tuxtepec	18°08'06.9"N 96°10'59.9"W	35	Nativo	3.5
	San juan bautista	18°08'04.3"N 96°10'57.5"W	20	Papaloapan	4.5
Jalisco	Autlán de Navarro	19°45'16.6"N 104°21'43.1"W	900	Asgrow 7573	2.0
	Autlán de Navarro	19°45'16.6"N 104°21'43.1"W	900	Asgrow 7573	3.0
	Unión de Tula	19°58'45.7"N 104°15'40.4"W	1349	Asgrow 7573	4.25
Veracruz	Rancho viejo	18°47'02.2"N 97°12'22.0"W	1260	Nativo	20.75
	Nueva Rosita	18°47'47.7"N 97°11'35.6"W	1320	Xalapeño	0.5
	Cd. Mendoza	18°48'53.9"N 97°10'51.2"W	1280	Nativo	0
	Emiliano Zapata	18°43'56.2"N 97°16'31.4"W	1630	Poncho	12.5
	Cosamaloapan de Carpio	18°09'01.5"N 96°10'29.5"W	10	Nativo	9.25
	Cosamaloapan de Carpio	18°08'45.3"N 96°10'31.0"W	15	Nativo	11.5
	Cosamaloapan de Carpio	18°08'44.7"N 96°10'27.8"W	10	Nativo	2.25
	Cosamaloapan de Carpio	18°08'43.6"N 96°10'29.2"W	10	Nativo	0.25
	Cosamaloapan de Carpio	18°08'33.8"N 96°10'30.6"W	10	Papaloapan	6.25
	Cosamaloapan de Carpio	18°08'44.1"N 96°09'42.6"W	20	Papaloapan	10.75
	Cosamaloapan de Carpio	18°08'45.0"N 96°09'44.9"W	20	H-520	3.5
	Cosamaloapan de Carpio	18°09'00.0"N 96°09'45.0"W	10	Nativo	3.75
	Cosamaloapan de Carpio	18°08'43.4"N 96°10'33.3"W	10	Nativo	5.5
	Cosamaloapan de Carpio	18°08'43.4"N 96°10'33.3"W	10	Nativo	5.5
	Cosamaloapan de Carpio	18°08'43.4"N 96°10'33.3"W	10	Nativo	5.5
	Cosamaloapan de Carpio	18°08'43.4"N 96°10'33.3"W	10	Nativo	5.5
Chiapas	Siltepec	15°27'42.0"N 92°23'29.5"W	790	Christian	10.25
	Motozintla	15°25'22.8"N 92°21'22.9"W	830	Dekalb 7500	15.0
	Motozintla	15°25'33.0"N 92°21'50.9"W	866	Pioneer	15.75
	Motozintla	15°26'06.6"N 92°21'48.8"W	879	Nativo	2.25
	Siltepec	15°27'26.3"N 92°22'58.5"W	986	Híbrido amarillo	0.5
	Siltepec	15°27'26.3"N 92°22'58.5"W	986	Pioneer	1.75
	Siltepec	15°27'26.3"N 92°22'58.5"W	987	Christian	5.0
	Siltepec	15°26'40.5"N 92°22'30.5"W	1056	Pioneer	5.0
	Montecristo de Guerrero	15°39'00.0"N 92°43'12.0"W	1215	Nativo	5.5
	El Nominado	15°36'00.0"N 92°43'12.0"W	1215	Pioneer	0.75
	El Nominado	15°36'00.0"N 92°43'12.0"W	1223	Pioneer	16.75
	El Nominado	15°36'00.0"N 92°43'12.0"W	1223	Jarocho	9.75
	Motozintla	15°23'34.5"N 92°25'50.6"W	1226	Nativo	12.75
	Motozintla	15°23'29.6"N 92°24'18.1"W	1250	Nativo	3.5
	Motozintla	15°25'11.1"N 92°23'01.9"W	1343	Pioneer	4.75
Edo. de México	Colpos	19°28'06.6"N 98°54'03.5"W	2250	MO19:15# Bco (Colpos)	3.5
	Colpos	19°28'06.6"N 98°54'03.5"W	2250	MO19:19+2# Bco (Colpos)	0.75
	Colpos	19°28'06.6"N 98°54'03.5"W	2250	MO19:Elvia 3 TSR# Bco (Colpos)	5.25
	Colpos	19°28'06.6"N 98°54'03.5"W	2250	MO19:11# Amar. (Colpos)	0.5
	Colpos	19°28'06.6"N 98°54'03.5"W	2250	MO19:CP-Vero1 Bco (Colpos)	5.0
	Colpos	19°28'06.6"N 98°54'03.5"W	2250	MO19:CP Hilda 2 Amar. (Colpos)	1.0
	Chapingo	19°29'30.5"N 98°52'30.7"W	2250	Mejorado	7.0
	Chapingo	19°29'30.5"N 98°52'30.7"W	2250	Mejorado	16.0
	Tepetlixpa	19°00'57.9"N 98°49'49.8"W	2330	Nativo	17.0

^a According to the interview with the owner of the plot. ^*b Average of four replications.

Table 2 Covariance of altitude variables (masl) and incidence of monkey hand disease in maize.

Variables	R	p-value	Significancia
Correlación Msnm – incidencia (Spearman) = 0.3038984	27.03%	0.01984	*
Covarianza: 2716.052	27.03%	0.01984	*

The covariance has a positive value (Table 2) and the correlation a percentage of 30.38, indicating a direct correlation. As the altitude of the location increased, the incidence tended to increase (Figure 2).

The results showed that monkey´s hand was found in all the states evaluated, with Puebla having the highest incidence (24 %). The native varieties were more susceptible to the disease than the improved ones. The different altitudes of the localities did not influence the incidence of monkey´s hand.

Figure 2 Correlation between the variables of altitude (masl) and the incidence of monkey´s hand disease in maize.

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Received: April 19, 2022; Accepted: June 05, 2022

^*Corresponding author: cdeleon@colpos.mx.

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