Ornamental potential of Schomburkgia crispa Lindl

Orchids are one of the groups of plants with the greatest commercialization potential. They have floral characteristics highly valued in the sector of flowers and ornamental plants. However, exotics species are the most commercialized. The native species are still little explored for their ornamental potential. Thus, this work describes the vegetative and floral morphological characteristics of Schomburgkia crispa Lindl. aiming at evaluating its ornamental potential. For such, seven individuals were chosen. The quantitative characters were evaluated in all plants, totaling fifty pseudobulbs and eighty-eight flowers. During flowering, the most representative plant was chosen for the visual evaluation of its morphological features through photographs. A floral diagnosis sheet based on photos of fresh flowers was prepared by keeping the maximum level of morphological details. At the end of the experimental period, averages and standard deviations were calculated for each character evaluated. The species S. crispa presented, on average, plants 46.17 cm long, 31.50 cm wide, and with 88 cm of diameter. For flowering characters, the species presented in general 16.50 flowers per plant, 14.67 per flower stem, and 4.66 flowers opened per day, with an average durability of 32 days. Thus, we conclude that the species S. crispa has a great ornamental potential for use in ornamental horticulture.


Introduction
State-of-the-art technologies incorporated into the production of flowers and ornamental plants have guaranteed a good performance of this sector in Brazil (Junqueira and Peetz, 2017a). In recent years, this segment has shown an annual growth between 6% and 9%. In 2017, it generated 6.9 billion reais along the production chain (Junqueira and Peetz, 2018).
The native ornamental flora should be considered as a germplasm bank for sustainable commercial exploitation, since it is desirable that these plants be used in breeding programs for the development of new cultivars such as Ionocidium Cerrado '101', Cattleya forbesii x Cattleya José Carlos Sorgato 1* , Jackeline Schultz Soares 1 , Luan Marlon Ribeiro 1 , Anderson Giaretta Cabral 1 bowringiana and Cattleya forbesii x Cattleya loddigesii (Cardoso, 2017;Colombo et al., 2017;Stulzer et al., 2019). Even with this possibility, native flora is virtually absent in commercial nurseries and in Brazilian flower shops, as well as information about supply of and demand for these species are incipient (Junqueira and Peetz, 2018;Zucchi et al., 2019).
Orchids are well known for their beauty and for other ornamental characteristics, such as their capacity of genetic combination and color diversity, shape, and durability of flowers (Zahara et al., 2017). Thus, producers have responded attentively to the continuous growth of this segment in the domestic market. Each year they introduce new hybrids of orchids resulting from improvements. There are currently registered 2,345 cultivars of orchids (Junqueira and Peetz, 2017b).
This botanical family is representative in the plant biodiversity of the Cerrado biome (Flora do Brasil forthcoming, 2020). This biome has little-explored species for economic, pharmacological, medicinal, and ornamental purposes (Belloto et al., 2017;Soares et al., 2020). Thus, native species with possible ornamental potential should be studied, given the high demand for plants to supply the market of flower and ornamental plants.
Moreover, the insertion of native orchids in the market can minimize illegal and irrational extraction from nature, besides reducing losses in biodiversity (Gale et al., 2018;Junqueira and Peetz, 2018). Schomburgkia crispa Lindl. is among the native orchids that can have great ornamental potential. This plant occurs in riverside forests and dry forests of the Cerrado (Ostetto, 2015;Barros et al., 2018).
Prospecting the potential of native species of orchids as ornamental plants may be an opportunity for Brazil to produce, commercialize and obtain self-sufficiency in the production of cultivars and seedlings (Cardoso, 2013) even for small producers, as it contributes to the preservation of local flora and highlights regional identities (Junqueira and Peetz, 2018). Thus, this work describes vegetative and floral morphological characteristics of Schomburgkia crispa Lindl. aiming at evaluating its ornamental potential.
According to the Köppen classification, the region's climate is Am (Tropical Monsoon) with hot summers and dry winters. The maximum temperatures occur in December and January (31.7°C) and the minimum temperatures are between May and August (19.5°C), coinciding with excess rainfalls in spring-summer and water deficit in autumnwinter (Fietz et al., 2017).
For the evaluation of the ornamental potential of this species seven individuals were chosen. The quantitative characters were evaluated in all plants in two flowering seasons (2018 and 2019), totaling fifty pseudobulbs, one hundred leaves, seven inflorescences and approximately eighty-eight flowers per flowering.
The vegetative morphological characteristics evaluated were as follows: length, width and circumference of the plant -measured in each pot separately; number, length (measured from its insertion in the pseudobulb to the apex of the leaf blade) and width of the median portion of the leaf (measured from its most expanded transversal portion). Measures were also taken for the number, length (measured from its insertion in the rhizome until the beginning of leaf insertion) and the diameter of pseudobulbs (measured from the most expanded transversal portion).
Measures for floral morphological characteristics included the number and length (measured from the insertion of the stem in the pseudobulb to the first flower) of flower stems; length (measured from the insertion of the first flower to the apex of inflorescence), diameter (obtained by the longest distance between two opposite flowers) and number of flowers of the inflorescence; in addition to the number of flowers opened per inflorescence per day. These characteristics were obtained in fully developed inflorescences and in full bloom. The average length of the bracteole was measured from the insertion of the floral stem to the apex of that structure. The durability of inflorescences and flowers was recorded daily while they remained on the plant, which were previously labeled and followed from anthesis to senescence (they were characterized as senescent flowers that presented petals and murky sepals, with darkening and loss of natural brightness).
During flowering, the most representative individual was chosen for a visual evaluation of its morphological features through photographs. A floral diagnosis sheet based on photos of fresh flowers was also prepared by keeping the maximum level of morphological details. At the end of the experimental period, means and standard deviations were calculated for each quantitative character evaluated.

Results and Discussion
The species S. crispa presented, on average, plants 46.77 cm long, 27.92 cm of diameter, and with 75.31 cm of circumference. Each individual presented about 8 pseudobulbs (25.00 cm of length and 2.99 cm of diameter) and 16 leaves (23. 00 cm of length and 4.78 cm wide in the median portion). On average, there were one to two floral stems (84.50 cm) per plant. Inflorescences were 12.35 cm long and 14.09 cm in diameter and had an average bracteole length of 4.87 cm (Table 1). These results corroborate the findings of Flora do Brasil forthcoming (2020) and those of Koch and Silva (2012) in the book "Orchids native to Mato Grosso". They reported that this species has characteristics such as fusiform, furrowed, and bifoliate pseudobulbs, leaves from 24 to 26 cm in length and 5 to 7 cm wide, inflorescences of 95 to 110 cm on average, and brown petals and sepals with yellow and crinkled margins.
The length of plant, pseudobulbs, and leaves of S. crispa are appropriate characteristics to be used as potted plants, cut flowers, and for landscaping (Figure 1). In ornamental horticulture, the study of these characteristics is important for cultivation, mainly commercial cultivation. They can define the spacing between plants, pot length, and crop management (Hunhoff et al., 2016). In addition, epiphytes can be widely used in vertical gardens. Species with apparent aerial roots, robust leaves, pseudobulbs, and long and exuberant floral stems are often asked for by landscape professionals to compose such spaces. All these factors occur in S. crispa, highlighting its potential as ornamental plant.  Table 1).
The flowers of S. crispa are considered to have great durability, since other native species, such as Cattleya lundii Rchb. f. & Warm., C. bowringiana O'brien and Oncidium pumillum Lindl., have flowers that last between ten and 15 days, and 15 days and ten days, respectively (Cardoso and Israel, 2005;Colombo et al., 2017).
Some aspects are important for the choice of plants for landscaping, such as inflorescences that stand out, flowers with a long flowering period, and the maintenance of these aspects for more than 30 days (Pinheiro et al., 2012;Hunhoff et al., 2016).
When analyzing the aspects of the flower morphology of S. crispa, the flowers have sepals and petals with an average of 21 mm and a labellum of 17.55 mm. The flower length is about 33 mm and its width are 45 mm (Figure 2).
The visual effects ornamental plants can produce are associated with the groups or types they belong to (trees, shrubs, climbing plants, herbs etc.) and with the particular attributes of each plant, such as the effect of flowers or showy foliage (Antônio, 2013). The results of flowering characteristics obtained for S. crispa, associated with its floral characteristics, suggest that the length and durability of inflorescence and flowers, combined with color, length and number of flowers produced per inflorescence, are ornamental characteristics that provide a greater attractiveness and that can be used in the sector of ornamental horticulture and landscaping (Hunhoff et al., 2016).
In landscaping, since the Brazilian Colonial period, influenced by the European style of gardening, numerous exotic species were introduced due to the lack of information on the use of native species in landscaping projects (Leal and Biondi, 2006;Paiva, 2008). Most of the time, the ornamental value of native plants is only recognized when they are studied and improved by other countries. Several species are suitable for landscaping, but there is exhaustive repetition of plants already consecrated and accepted by the population, many of which are unsuitable for the place where they are used (Leal and Biondi, 2006). Thus, native species are still little representative in the flower and ornamental plants market compared to the existing diversity in Brazil. Therefore, they should be further studied and introduced in the Brazilian market.

Conclusions
According to the results obtained for S. crispa, the vegetative characteristics, such as apparent aerial roots, long and robust leaves and pseudobulbs, in addition to long and exuberant floral stems, emphasize its potential as ornamental plant. In addition, it can be suggested that the length and durability of inflorescence and flowers, combined with color, size and number of flowers produced by inflorescence, are ornamental features that play a significant role in providing greater attractiveness. They can be used in the ornamental horticulture sector, reinforcing and stimulating the use of native Cerrado species in landscaping projects.