A Comparative Analysis of Morphological Characteristics between Endangered Local Prickly Pear and the Newly Introduced Dactylopius opuntiae-Resistant Species in Eastern Morocco

Prickly pear serves as a significant source of income for farmers worldwide, with production taking place in temperate, subtropical, and cold regions. The objective of the present investigation is to explore the morphological parameters of Opuntia robusta and Opuntia dillenii which are resistant to the white cochineal (Dactylopius opuntiae), as well as the local prickly pear that is currently threatened with extinction. This investigation aims to evaluate the feasibility of replacing the endangered local prickly pear with the recently introduced species O. robusta and O. dillenii. This analysis is based on a comprehensive assessment of 26 qualitative and 25 quantitative traits pertaining to cladodes and fruits. In terms of species differentiation and the selection of discriminative features, this study demonstrates the effectiveness of various statistical methods, as well as the analysis carried out according to the descriptors recommended by the International Union for the Protection of New Varieties of Plants (UPOV). Of the 51 parameters evaluated, 13 qualitative and 23 quantitative characters are significant in differentiating the species under study. This underscores the importance of quantitative traits in distinguishing different prickly pear species. Furthermore, color is identified as a crucial characteristic for discriminating between the studied samples. O. robusta is characterized by its high fruit weight, large size, greater pulp content, and high pulp-to-peel ratio, all of which are desirable traits for fresh consumption. Additionally, O. robusta has the highest number of fully developed seeds, making it an attractive option for use in the cosmetic industry. This characteristic renders the O. robusta a potential substitute for the endangered ecotype . However, O. robusta is distinguished by its short stalk, which poses a challenge for fruit harvesting and leaves it susceptible to physical damage and quality loss. Conversely, O. dillenii displays a low pulp content, which serves as a critical indicator of fruit quality. The only desirable agronomic trait of this species is its elevated seed content, which has the potential for utilization in oil production for the cosmetic industry.


Introduction
Te prickly pear, which belongs to the Cactaceae family, stands as a preeminent plant with nearly 130 genera and around 2000 species, according to Bouzroud et al. [1].Te nopal cactus, native to Central America, is widely spread throughout the continent, with Mexico having the largest cultivated area of approximately 70.000 hectares, as reported in [2].Te cultivated area is distributed among 15.000 hectares for fodder production, 10.500 hectares for cactus pear production, and 51.112 hectares for commercial fruit production, as highlighted in [3].In 1552, Christopher Columbus introduced the prickly pear cactus to Europe during his frst expedition to America.Subsequently, in the 16th century, the plant was further disseminated to the Mediterranean region following Spanish expansion and the return of Arabs to their countries in 1610 [4].Mexico holds the leading position as the primary source and major producer of prickly pear fruit, while Italy holds the second position [5].
Te ecological adaptability of the nopal cactus, coupled with its highly efcient and easily implementable vegetative propagation, distinguishes this plant species from others.Tese features have enabled nopal cactus to thrive in various regions worldwide, including Mediterranean areas as well as arid and semiarid regions, where water scarcity poses a signifcant limitation to the reproduction of most plants.Additionally, the plant's drought resistance ability enables it to attain high yields even in stressful environments, making it an ideal crop for the development of marginal lands and a crucial plant in the mitigation of desertifcation and soil erosion.Cactus pear presents a promising crop with immense potential for breeders, farmers, and food technologists [6].Given the persistent problem of climate change, global desertifcation, and declining water resources, the utilization of Opuntia sp as a food production system that encompasses both fruit and vegetable parts becomes increasingly crucial [7].Furthermore, the nopal cactus stands out as a valuable resource not only in the agricultural and food production sectors but also in the cosmetic and pharmaceutical felds.Its diverse applications and benefts make it a plant of signifcant interest to researchers and industry professionals alike [8].
In the eastern region of Morocco, the prickly pear serves primarily for delineating plots and as a natural fence around homes.Te plant's resilience in challenging environments, such as valleys and mountains, makes it a preferred choice for cultivating fruit crops in these areas.Te Moroccan population, along with several other countries globally, highly values the fruit of this species, contributing to its increased proftability.
As a result of these characteristics, the cultivation of this plant has experienced a consistent increase, with the area of cultivation expanding from around 60.000 hectares in the early 2000s to over 150.000 hectares in 2017 [9].Unfortunately, the rapid spread of the white cochineal (D. opuntiae), which was introduced to Morocco in 2015 [10], has resulted in widespread destruction in almost all regions of the eastern part of the country, endangering the survival of the local prickly pear.Consequently, farmers have begun importing resistant species to mitigate this issue.Currently, two new resistant species, O. robusta and O. dillenii, have been successfully introduced in the northeastern region of Morocco.Tese species are among the eight cochineal scale insect's resistant species that the National Institute of Agronomic Research (INRA) has included in the ofcial catalog for use in future plantings and site restoration following devastation by cochineal scale insects.
Te performance of diferent species depends on their adaptability to agroecological diversity [11].Hence, it is imperative to ensure that the newly introduced resistant cultivars can adjust to the climatic conditions prevalent in the northeastern region.Tis study aims to achieve two primary objectives: frstly, to compare the morphological characteristics of the local prickly pear, which is at risk of extinction, with the two species that are resistant to carmine cochineal, and secondly, to assess the efectiveness of recently introduced cultivars and pinpoint accessions exhibiting favorable agronomic characteristics, considering their current and potential applications, particularly in fruit production and oil evaluation.Te research seeks to ascertain the extent to which the newly introduced resistant species can replace the local prickly pear.Te study encompasses an analysis of both the cladodes and fruits of the prickly pear.

Research Methodology. Te International Union for the
Protection of New Varieties of Plants (UPOV) guidelines [12] were followed for analysing cladodes and fruits of the diferent studied species.Te study also took into account the General Introduction and related TGP (Development of Test Guidelines) documents.

Study Location.
Tree populations of prickly pear were selected from the province of Oujda located in northeastern Morocco for analysis (Figure 1).Tis region has an elevation of 550 meters above sea level and experiences a Mediterranean climate with cold winters and hot summers (Supplemental Table 1).Precipitation in the region is irregularly distributed over time, as depicted in Figure 2.
In accordance with information obtained from (climate.northwestknowledge.net), the warmest month in the Oujda region of northeastern Morocco is July, with an average temperature of 34.8 °C, while January is the coldest month, with an average temperature of 4 °C (Figure 2).
Data collection for all samples occurred over the course of two consecutive years (2021-2022), and 38 morphological characteristics pertaining to cladodes and fruits were evaluated to describe the three genotypes, as presented in Table 1.

Biological Material.
Te methodology employed in this study involved collecting two parts from each of fve healthy plants that were more than three years old and had at least three successive cladodes.Te sampling was carried out during summer of the two consecutive years 2020 and 2021.Te observations of the fruits were conducted on 20 samples that were processed within 24 hours (Figure 3).Te samples were weighed before peeling, and the edible part (pulp) of each fruit was crushed and strained to separate the seeds from the remaining pulp.Te seeds were then subjected to shade drying to eliminate surface moisture.Weight measurements of both fruits (mature fruits) and cladodes (young cladodes) were obtained using a precise balance (0.01 g) manufactured by Statorius AG in Gottingen, Germany.Additionally, the dimensions of the fruits, including internal, external, and depth measurements, were obtained using a caliper.

Data Analysis
In order to examine the relationships among the diferent accessions under study, a variety of statistical procedures were employed.Regarding the assessment of normal distribution, normality is considered acceptable if the calculated p value of the Shapiro-Wilk test surpasses the alpha threshold (5%).On the other hand, if the p value from the Levene test exceeds 5%, the null hypothesis is accepted, indicating the homogeneity of variances (Levene  4 Scientifca statistic 0.03; p > 0.05).Te response variables did not meet the assumptions of normal error distribution and homogeneity of variances; therefore, the data were transformed into rank [13] and the analysis was carried out so as not to violate the assumptions.Statistical analyses were carried out using the IBM SPSS Statistics 25 software.Only variables with a confdence level higher than 95% were considered signifcant.Te T2 de Tamhane post hoc test was then used to carry out multiple comparisons of the mean values.
For the quantitative traits, principal component analysis (PCA) which is dimension reduction method was used to represent a set of observed variables in terms of a smaller number of variables, which were then employed for K-means cluster analysis in conjunction with ANOVA to assign cluster membership to individuals.To evaluate the relationships between various qualitative descriptors, the MCA method was used, with the mean Cronbach's alpha index value being considered acceptable if it exceeded the minimum threshold of 0.70 [14].
Color measurement was assessed using the method described in [15] utilizing a chromameter C-410 and the CIE lab system.Te color measurements were calculated using the following formulas.
Saturation metric is calculated as follows: Te tint is calculated as follows: Te distance between two colors is calculated as follows:

. Results
Variations were noted across the samples concerning 51 parameters associated with cladodes and fruits.Notably, color emerged as one of the most crucial traits for distinguishing among the studied samples.While the fruits could be easily distinguished, the cladodes were difcult to diferentiate due to their high similarity.To address this issue, a chromameter device was employed, which revealed substantial diferences in color among the samples (Table 2, Table supplemental 2).O. dillenii displayed the higher hue value and the lowest lightness.However, the local genotype showed the highest chroma value with moderate results of each for both hue and lightness.In contrast, O. robusta registered the higher lightness value, along with moderate results of each of chroma and the hue.

Quantitative Morphological Traits Variability.
To assess the morphological diversity among the studied species, separate analyses were conducted on both cladodes and fruits.One-way MANOVA, PCA, and K-means tests were employed based on 25 quantitative parameters for this purpose.One-way MANOVA test conducted on the fruits revealed statistically signifcant diferences among the studied species (p < 0.05).Te subsequent post hoc test, enabling pairwise comparisons of groups, indicated significant diferences between the examined groups (Table 3).Except pulp-to-fruit and peel-to-fruit weight ratio, oneway MANOVA test revealed a signifcant diference in all the studied parameters (Wilks' lambda � 0.00003, p � 0.002).Te harvested fruits exhibited weights ranging from 16.47 to 82.78 g, with O. robusta and the local ecotype displaying the highest values, while O. dillenii displayed the lowest weight.In terms of fruit length, the local ecotype was identifed as having the longest fruit, while the AN and AA species, which belong to the same group, showed no signifcant diference.Opuntia robusta displayed the largest fruit followed by the local ecotype, while the smallest fruit was observed in the Opuntia dillenii.Highly signifcant diference was registered between the examined species.Regarding seed weight, a signifcant diference (F � 23.45, p < 0.01) was observed.Both O. dillenii and O. robusta displayed higher values with no signifcant diference between them (1.60 and 1.61, respectively), while the local ecotype recorded the lowest value.With regard to fruit size, signifcant diferences were recorded among the studied species.O. dillenii is characterized by the smallest volume, while the local ecotype and O. robusta displayed the largest sizes.As for the pulp content, is regarded as vital factor in evaluating fruit quality.O. robusta and the local ecotype exhibited the highest pulp content, with no signifcant diference between them, while O. dillenii recorded the lowest pulp content.Regarding peel weight and the depth of the receptacle scar, highly signifcant diference was observed only between O. dillenii and O. robusta, while no signifcant diferences were recorded between the local ecotype with each of O. dillenii and O. robusta.Despite signifcant diferences in peel and pulp weight among the studied species, no signifcant diference was found in the weight ratio of peel to pulp.For the depression of the receptacle scar, the local ecotype is distinguished by the highest depression, followed by O. robusta, whereas O. dillenii registers the lowest value of 0.26 cm.A highly signifcant diference was observed between the local ecotype and both O. dillenii and O. robusta, whereas no signifcant diference was observed between O. robusta with O. dillenii (Table 3) Upon analysing the cladodes, the statistical analysis revealed signifcant (F � 454.08, p < 0.05) and highly signifcant diferences between the studied species.O. robusta exhibited the highest values for various cladode parameters (Table 4), including weight, width, largest distance between areoles, and thickness at tip and base, as well as the length of the longest spine.On the other hand, the local ecotype was identifed as having the longest cladodes, the highest number of areoles, and the highest number of spines in the center.Meanwhile, O. dillenii consistently displayed the lowest values for each parameter examined, except for the lengthto-width ratio, where O. dillenii showed the highest value, but without a signifcant diference compared to the local ecotype (Table 4).
To thoroughly evaluate the cultivars based on their overall profle, separate principal component analysis (PCA) of both cladodes and fruits was carried out, considering 25 quantitative traits.
Te PCA of the cladodes revealed that the frst two principal components explained 61.97% and 28.7% of the observed variation, respectively, accounting for a total of 98.67% of the total variation (Table supplemental 3).As depicted in Figure 4, the principal component analysis clearly demonstrated the presence of three groups.
Te combination test of K-means and analysis of variance indicated that there is a signifcant diference between all the studied variables (Supplemental Tables 4 and 5).Cluster 2, represented by the local ecotype, was characterized by having the longest cladode, the highest number of areoles per cladode, and the highest number of areoles and spines in the center row.On the other hand, cluster 3, represented by O. robusta, displayed the largest cladode, the greatest thickness of the cladode at the base and tip, the largest distance between areoles, and the longest spine length.Conversely, O. dillenii was found to be distinct only in terms of having the highest ratio of length to width, represented in cluster 1.
In reference to fruits, our analysis utilizing principal component analysis (PCA) has revealed that the frst two principal components account for 49.71% and 27.92% of the total variation observed, respectively (Supplemental Tables 6A-6B).Collectively, these components explain 77.64% of the total variation, thus indicating the existence of three distinct groups as depicted in Figure 5. Upon conducting K-means tests and ANOVA (Supplemental Tables 7  and 8), it has been established that despite belonging to diferent clusters, certain variables including peel thickness in the center, the ratio of peel weight to fruit weight, and the ratio of pulp weight to fruit weight do not demonstrate any signifcant diference.However, it is noteworthy that the variables that are most distinct are the largest fruit size, deepest 6 Scientifca receptacle scar, highest receptacle diameter, highest fruit and peel weight, highest pulp weight, highest weight of seeds, and largest number of fully developed seeds.Te third cluster, represented by the local ecotype, is characterized by the longest fruit, the highest ratio of length to width, the highest number of areoles, the greatest value of depression of receptacle scar, and the thickest pericarp at the center (Figure 6).

Qualitative Morphological Traits Variability.
Te AFCM method was utilized to perform a qualitative data analysis on 26 traits.Cronbach's alpha index value of 0.98 surpassed the required minimum value of 0.7.Notably, the qualitative parameter analyses for fruits and cladodes were conducted separately.Specifcally, for fruits, (Discrimination Measures, Figure 5) indicated that the length of the stalk, shape in the longitudinal section, primary surface color, fesh color, and depression of the receptacle scar were the most noteworthy and diferentiating variables.Hence, these morphological characteristics represent the greatest variations among the studied species.In contrast, the seed size and glochid color are moderately diferentiating variables, while the evenness of the surface color, fesh frmness, and receptacle scar diameter have the least impact on the morphological description.Te validity of the fndings was supported by the joint plot of category points (Figure 7), where the three studied species were distinguishable by fesh color, stalk length, shape in longitudinal section, primary surface color, glochid   Regarding the cladodes, the waxiness, cladode shape, apical part shape, glochid density, spine attitude, the main color of the spine, surface spine, and the presence or absence of a spine constitute the most signifcant morphological diferences between the three species.Consequently, these reported variables are instrumental in diferentiating the three species.Areole and glochid color, as well as the shape at the base, are moderately discriminating characteristics.Conversely, spine twisting, widest part position, surface pubescence, spine curvature, and undulation margin have the least impact on the morphological description (Figure 8).O. robusta is unique in terms of glochid color, areole color, shape at the base, and base form.Meanwhile, apical form, spine presence or absence, spine surface, and spine main color are distinct characteristics of O. dillenii.Te local ecotype difers from the other species only in spine twisting and the position of the widest part, as illustrated in Figure 9.

Discussion
Te multivariate analysis of both qualitative and quantitative parameters associated with the cladodes and fruits conclusively demonstrates a clear separation of the three studied species.Among the numerous morphological parameters examined, 13 qualitative and 23 quantitative traits were found to be signifcant in distinguishing the studied species.
In terms of fruits, O. robusta stands out due to its signifcant factors that greatly infuence fruit quality such as higher weight, largest size, and greater pulp content, as reported in [16,17].Concerning the fruit size, our fndings are consistent with those reported by [18] emphasizing the importance of fruit size in distinguishing and categorizing prickly pear species.Tese signifcant diferences were attributed to several factors including environmental conditions [19,20], but in this investigation, the samples of the diferent studied species were taken from the same location.Terefore, the observed diferences cannot be linked to the environmental conditions.In this examination, the mother plants of sampled cladodes did not receive any crop management practices, such as irrigation or thinning, which could infuence fruit size [21,22].Consequently, the observed diferences are likely related to genetic factors.Our results align with [23] which discovered that fruit size is primarily determined by genetic factors, rather than environmental or edaphic factors.Furthermore, the authors of [24] asserted that Fruit size results from factors such as cell number, cell volume, and cell density, all of which are infuenced by genetic factors.Besides disease resistance and productivity, fruit quality is a critical factor for consumer preference, contributing signifcantly to commercial success [25].Terefore, considering fruit volume, O. robusta could be regarded as ofering the best fruit quality as an alternative to the local prickly pear specie.Concerning the edible portion, the pulp content serves as a key determinant of fruit quality, the greater the edible portion, the higher the fruit quality.Terefore, the content of the pulp is considered crucial in the domestication process [3].Fruits with large sizes and a high proportion of edible pulp are highly valued, particularly for fresh consumption.According to the obtained results, O. robusta displayed the higher pulp weight followed by the local prickly pear, without any signifcant diference between them.As a result, this desirable trait makes O. robusta a promising substitute for the endangered ecotypes [26].Water availability, whether through irrigation or rainwater, plays a very important role in the development of the edible part of prickly pear fruit.Notably, the pulp content is composed essentially of water (84-90%) [27].However, as the sampling was conducted in the same geographical area, the impact of water has been excluded.Consequently, the observed diference in pulp content is likely attributed mainly to genetic variability.Tis aligns with the conclusion of [28], which concluded that fruit mass is genetically controlled.Concerning seed weight, our fndings are in agreement with those reported by Barbera et al. [27] who stated that prickly pear fruit quality is afected by seed content which is controlled by genotype.According to the obtained results, O. robusta accompanied with O. dillenii have the highest number of fully developed seeds, which [27] pointed out, is a signifcant factor in determining fruit weight.Depending on the intended use of the fruit, seed content can have a positive or negative efect.For fresh consumption, high seed content may be less desirable, while very seedy pulp is preferred for cosmetic purposes.Tus, O. robusta and o. dillenii may have potential applications in the cosmetics industry especially oil sector.
According to the aforementioned fndings, the local ecotype possesses the thickest pericarp, making it the most resistant to physical damage, followed by O. robusta.Conversely, O. dillenii has the thinnest pericarp and may be more prone to physical damage.For nonclimacteric fruits, such as prickly pear, the suitability of the fruits for storage primarily depends on conservation conditions such as temperature and relative humidity.However, physical damage can also result in microbiological degradation during storage, thereby afecting the fruit's conservation period and quality.Terefore, two important parameters that infuence fruit quality are stalk length and pericarp thickness [29].Te presence of a long peduncle facilitates fruit harvesting and prevents damage at the peduncle, which is one of the main causes of quality loss [30].Only O. robusta has a short stalk, making it susceptible to physical damage.Tese parameters are useful in diferentiating between various species of prickly pears and understanding how to efectively store and handle prickly pear fruits to maintain their quality.
Regarding receptacle scar, either for diameter or depth, no signifcant diference was observed.Consequently, measures related to receptacle scar do not enable the distinction between the diferent species of prickly pear.Our results are not in agreement with those reported by [31] who noticed that foral receptacle diameter and foral receptacle depth varied signifcantly among the diferent varieties.
All scrutinized fruit morphological characteristics have presented a promising opportunity for the potential substitution of the indigenous ecotype with the two recently introduced species.Among these, O. Robusta stands out as the most favorable candidate, except for its comparatively shorter stem, rendering it the primary contender for supplanting the local ecotype based on fruit-related attributes.Nevertheless, it is imperative to note that this does not imply unfavorable attributes for O. dillenii.On the contrary, this study underscores that O. dillenii possesses a distinctive feature, notably its high seed content, which holds considerable value, particularly within the cosmetic industry.
Various parameters related to cladodes allow for distinguishing between the studied species, and all the diferences we found in our analyses could be attributed to genetic factors.Tese results are consistent with previous fndings by [32].Since the studied species and the local ecotype belong to the same region, the impact of environmental and soil factors on cladode morphology could be considered negligible.However, [33] suggested that diferences in cladode size may be related to soil nutrient levels.Furthermore, observed that the presence and number of spines per areole, as well as the number of areoles, vary across diferent growing regions.Similarly, [34] associated the presence and the number of spines per areole with environmental conditions and gene expression.
Only O. robusta possesses larger-sized cladodes (length and large), whereas the cladodes of O. dillenii are the smallest.From a cladode point of view, in either food, fodder, or cosmetic feld, O. Robusta emerges as the more suitable choice for replacing the local ecotype compared to O. dillenii.10 Scientifca Te fndings of our morphological qualitative measurements indicate conspicuous diferences between the studied species.Tis clear separation was established by the combination of the discriminating measures and the joint plot of the category points.Te former allows for the identifcation of the most distinctive variables, while the latter facilitates the allocation of each species to its most salient features.
Discriminant analysis showed that among the 26 phenotypic characteristics of prickly pears under examination, 13 (comprising 5 and 8 morphological descriptors of fruits and cladodes respectively) are the most discriminating.Among the fruit parameters, the length of the stalk, shape in longitudinal section, primary surface color, fesh color, and depression of the receptacle scar prove valuable in discerning between cactus pear accessions.Our results are in agreement with those reported by [35] emphasizing that surface color is one of the most discriminating parameters in distinguishing between prickly pear species.Te identifed morphological descriptors are easily observable with the naked eye, enhancing their efectiveness in serving as discriminant parameters.
Regarding the cladodes, the waxiness, cladode shape, apical part shape, glochid density, spine attitude, main color of spine, surface spine, and the presence or absence of a spine constitute the most signifcant morphological diferences between the three species.Consequently, these reported variables are instrumental in diferentiating the three species.Our results are in agreement with those reported by Amani et al. [35], who stated that cladode shape is one of the most discriminating morphological parameters in diferentiation among the prickly pear species.Areole and glochid color, as well as the shape at the base, are moderately discriminating characteristics.Conversely, spine twisting, widest part position, surface pubescence, spine curvature, and undulation margin have the least impact on morphological description, as evidenced in Figure 9. O. robusta is unique in terms of glochid color, areole color, shape at the base, and base form.Meanwhile, apical form, spine presence or absence, spine surface, and spine main color are distinct characteristics of O. dillenii.Te local ecotype difers from the other species only in spine twisting and the position of the widest part, as illustrated in Figure 9.
Tese outcomes align with other research that also found these qualitative traits to be useful in distinguishing between diferent cactus pear samples [17,36].Te morphological qualitative traits proved efective for distinguishing among the studied species, but they did not indicate the potential for replacing the local ecotype with the two newly introduced species.

Conclusion
Te present study demonstrates that the recommended morphological descriptions provided by the International Union for the Protection of New Varieties of Plants (UPOV) are efective in analysing Opuntia species based on their external features.Te 13 quantitative and 21 qualitative descriptors used in this investigation have shown promise in discerning characteristics that allow discrimination between the studied samples.Additionally, the statistical approaches employed in this study were appropriate and useful tools for segregating prickly pear species and selecting the most discriminant parameters based on morphological descriptors.Tis phenological investigation has the potential to replace the local ecotype, which is threatened with extinction, by selecting species with agrophenological features suitable for industrial and socioeconomic exploitation.Te recently introduced resistant species (O.robusta and O. dillenii) have potential value in the cosmetic feld, and O. robusta has suitable morphological traits that qualify it to replace the local ecotype as far as the fruits are concerned.
Te current study shows that the two resistant species (O.robusta and O. dillenii) are characterized by a higher number of fully developed seeds.Consequently, future research should focus on studying the physicochemical characteristics of the oil of the local O. robusta and O. dillenii and compare them to the local ecotype.Additionally, the organoleptic quality of O. robusta fruits should be studied.Overall, these fndings can assist in breeding and conservation eforts for diferent species of cactus pear, as well as in developing management strategies for their cultivation and use.

Figure 7 :
Figure 7: Joint plot of category points of the local prickly pear, Opuntia robusta, and Opuntia dillenii, basing on fruit qualitative parameters.

Figure 8 :
Figure 8: MCA (multiple correspondence analysis) dimensions discrimination measures, basing on cladode qualitative parameters conducted on the studied accessions: local prickly pear, Opuntia robusta, and Opuntia dillenii.

Figure 9 :
Figure 9: Joint plot of category points of the local prickly pear, Opuntia robusta, and Opuntia dillenii, basing on cladodes qualitative parameters.

Table 1 :
Quantitative and qualitative pomological characters of fruit and cladode based on the UPOV test guidelines for cactus pear and xoconostle (UPOV, 2004).

Table 2 :
Cladode color parameters of the local ecotype, Opuntia dillenii, and Opuntia robusta.According to the analysis of variance, means (± standard error) followed by the same letters are not signifcantly diferent (p ≤ 0.05).

Table 3 :
Average values of one-way MANOVA of quantitative pomological traits conducted on the fruit of the Opuntia dillenii, local ecotype, and Opuntia robusta.

Table 4 :
Average values of one-way MANOVA of the quantitative pomological characteristics conducted on the cladodes of the local ecotype, Opuntia dillenii, and Opuntia robusta.According to the analysis of variance, (± standard error) means followed by the same letters are not signifcantly diferent (p ≤ 0.05).Te local ecotype was diferentiated from other species based on the diameter of the receptacle scar, fesh frmness, and evenness of the surface color.
* p < 0.05, * * p < 0.01, * * * p < 0.001, and NS denotes not signifcant.Scientifca density, and seed color.Conversely, O. robusta demonstrated uniqueness in seed size and glochid color, while the depression of the receptacle scar was a distinguishing feature of O. dillenii.