Micro-morpho-anatomical transitions at various stages of in vitro development of Crinum malabaricum Lekhak and Yadav: A critically endangered medicinal plant

• Crinum malabaricum Lekhak & Yadav is a recently discovered and critically endangered aquatic bulbous plant of the family Amaryllidaceae. It gained attention as a wild source of the acetylcholinesterase inhibiting alkaloid ‘galanthamine’ used to treat Alzheimer and Parkinson diseases. The bulbs of this plant contain the highest amount of galanthamine among Crinum species.
• In vitro regeneration systems were developed to produce quality uniform plantlets of C. malabaricum. Bright field light microscopy was used to analyse micro-morpho-anatomical developments taking place in the leaves and roots during in vitro, ex vitro and in vivo transitions of plantlets.
• Leaves and roots of plants raised in vitro possessed a higher degree of microscopic structural anomalies, such as underdeveloped epicuticular wax deposition, immature and non-functional stomata, more aquiferous parenchyma with a reduced lumen. Roots developed in vitro were characterized by extremely large, uneven cortical cells and reduced intercellular spaces. The vascular tissues were under-developed and only primary vascular tissues were observed. As a result of ex vitro acclimation, there was a significant acceleration in the improvement of tissue systems in leaves and roots. Such plantlets can tolerate elevated temperatures and light under in vivo conditions.
• Thus, the microscopic evaluation of the structural trajectory in different stages of plantlet development provides an understanding of the acclimation process and structural adaptations, which could help enhance survival of in vitro raised plantlets under ex vitro and in vivo conditions.

     

In vitro shoot regeneration from leaf explants of Echinops kebericho: an endangered endemic medicinal plant

Echinops kebericho is a critically endangered endemic medicinal plant of Ethiopia. It is threatened due to over harvesting of its roots for medicinal purposes and from poor seed viability. This study aimed to develop a protocol for in vitro shoot regeneration from leaf explants of E. kebericho. The seeds were sterilized using ethanol followed by Clorox or calcium hypochlorite. Shoots from the germinated seeds were cultured on Murashige and Skoog (MS) medium containing different concentrations of α-naphthalene acetic acid (NAA) and 6-benzyl amino purine (BAP). Young leaves were cultured on MS medium containing different concentrations of BAP and NAA for shoot regeneration. For shoot multiplication, shoots were excised and cultured on MS medium containing different concentrations of BAP or kinetin (KIN) and NAA. The highest mean number of initiated shoots (4.00 ± 0.57) with 100% shoot induction was obtained on medium containing 1.0 mg/L BAP and 0.2 mg/L NAA. The highest shoot regeneration (33%) and shoot number (2.13 ± 0.06) were obtained on MS medium containing 2.0 mg/L BAP and 0.5 mg/L NAA. Medium containing 1.0 mg/L KIN and 0.2 mg/L NAA produced the highest number of shoots (4.67 ± 0.33) per explant. This protocol can be used for genetic improvement and conservation of this endangered species.     

A rapid in vitro propagation protocol for Piper barberi Gamble, a critically endangered plant

Summary A protocol is described for rapid multiplication of Piper barberi Gamble (Piperaceae) through shoot tip and nodal explant cultures. Nodal explants with a single axillary meristem showed three times better response with respect to shoot proliferation when compared to shoot tip explants. The best shoot proliferation response of nodal explants was observed with a cytokinin combination of N₆-benzyladenine (4.43 μM) and kinetin (2.32 μM), with 88% bud break. The number of shoot initials (2.4) produced per nodal explant was twice the number of shoot initials (1.2) per shoot tip. An average of 6.9±0.58 adventitious shoots were observed from the proximal end of the internodal explants on Mursashige and Skoog (1962) (Ms) basal medium supplemented with N₆-benzyladenine (2.22 μM) and kinetin (0.46 μM). A multiplication rate of 82 shoots per explant could be achieved after 9 wk of subculturing. The in vitro shoots were rooted on one-half and one-quarter MS basal medium. The shoots rooted on one-quarter MS in the dark produced eight roots with an average root length of 3.36 cm and 98% survival. These plants were transferred to the field with a survival rate of 75%.     

In vitro conservation of <Emphasis Type="Italic">Alectra chitrakutensis</Emphasis>: a critically endangered root parasitic plant of high medicinal importance

The present study provides an effective in vitro propagation method for critically endangered parasitic plant Alectra chitrakutensis (M.A. Rau) R. Prasad & R.D. Dixit (Scrophulariaceae). The plant comprises tremendous medicinal properties to treat many diseases such as leprosy, leucoderma, tuberculosis and paralysis. The protocol has been developed using rhizome explant on the modified Murashige and Skoog medium containing various phytohormones to raise complete plantlets without any host interaction. 0.5 mg/l kinetin and 1.0 mg/l NAA was found to be the most excellent medium combination to obtain plantlets with an average shoot length of 11 ± 1.04 cm; and 100% response for rooting. The same medium combination also supported flowering in vitro. Further, comparative molecular and chemical characterization of in vitro and in vivo grown plants were carried out by performing RAPD and HPTLC analysis, respectively, to make sure the genetic as well as chemical stability among the plants. RAPD analysis with MAP (01-20) and OPJ primers (01-20) exhibited a monomorphic band pattern which revealed the genetic similarities among the tested plants. Similarly, presence of azafrin, the most important pharmaceutically active compound in in vitro generated plants indicates the efficacy of protocol to fulfill the objective of in vitro propagation of this critically endangered plant species. Moreover, the present study is the first report towards in vitro conservation of parasitic plant A. chitrakutensis without host from the rhizome explant.     

In vitro propagation and assessment of genetic uniformity along with chemical characterization in Hildegardia populifolia (Roxb.) Schott & Endl.: a critically endangered medicinal tree

In Vitro Cellular & Developmental Biology - Plant - Hildegardia populifolia (Roxb.) Schott &amp; Endl. is a critically endangered medicinal tree species which also provide high-quality...     

Considering ploidy when producing and using mixed‐source native plant materials for restoration

There is a clear need to maximize the genetic diversity of plant material used in restorations to ensure restored populations are equipped to handle current and future conditions. This increasingly translates to focused efforts to intentionally increase the genetic diversity of seed sources in production and/or restoration settings. For example, multiple populations may be brought together to create plant materials with more genetic diversity than is present in any single population. Recent literature showing minimal risk of outbreeding depression and extensive benefits of genetic rescue has helped justify this approach, with the exception of mixing populations with fixed chromosomal differences. In these cases, extensive loss of fertility may occur after mixing. Some types of incompatible chromosomal differences are difficult to detect and therefore have unknown occurrence and distribution within and among species. However, the most extreme form of chromosomal differences—intraspecific ploidy variation (IPV)—is relatively easy to quantify with current technology and known to be fairly common in angiosperms. To encourage more systematic consideration of IPV in native plant restoration, we used available data on IPV to estimate its incidence in 115 species widely used for restoration in the United States. Over one‐third have IPV. Additional focused research is needed to understand the consequences of IPV for restoration, particularly given the current trend toward mixing natural collections for materials development and use. We provide recommendations to explicitly incorporate the reality of IPV into the production and use of genetically diverse plant materials for restoration.     

Urea: a nitrogen source for the aquatic resurrection plant Chamaegigas intrepidus Dinter

Chamaegigas intrepidus Dinter is a poikilohydric aquatic plant that lives in rock pools on granite outcrops in central Namibia. The pools are filled with water only intermittently during the wet season, and the plants may pass through up to 20 rehydration/dehydration cycles during the summer rains. The potential nitrogen sources for the rehydrated plants are ammonium, which is only present at 10–20 μm, amino acids, particularly glycine, and urea, which is generally present at 20–30 μm. We show that urea can be utilised by plants in the field through the presence of urease in the sediments of the rock pools. Urease activity is higher in non-submerged than in submerged sediments, and it can survive 6 months of complete dryness at temperatures up to 60°C. Experiments with [¹⁴C]urea under laboratory conditions show that the roots of C. intrepidus are unable to take up urea; while ¹⁵N-nuclear magnetic resonance experiments show that [¹⁵N]urea is only metabolised to labelled glutamine and glutamate after ammonium has been released by the action of urease. Thus urease plays a vital role in allowing urea to be utilised as a major N source in this nutrient-limited aquatic ecosystem. Received: 23 April 1999 / Accepted: 8 November 1999     

In vitro culture of the endangered plant Eryngium viviparum as dual strategy for its ex situ conservation and source of bioactive compounds

Different Eryngium species have been used with ornamental, agricultural and medicinal purposes, as a consequence of their chemical constituents. In the southwest Europe the endemic Eryngium viviparum, presents a high risk of extinction and ex situ strategies are high recommended for efficient conservation and re-introduction program. The objective of this study was to satisfy a dual objective: (i) to develop an ex situ conservation strategy through micropropagation and (ii) taking advantage of the extraordinary potential of plant tissue culture, produce a considerable amount of plant material to carry out a preliminary phytochemical study, based on the accumulation of phenolic compounds and their associated antioxidant activity. First a factorial design was conducted in order to study the effect of two cytokinins (6- benzylaminopurine, BAP, and kinetin, KIN), at three levels (0, 1 and 2 mg L^?1), on shoot multiplication. Later another factorial design was applied, by using three levels of MS medium salt strength (full, half and quarter- strength) and four sucrose levels (0, 1, 2, and 3%) for improving shoot elongation and rooting. In parallel, a preliminary quantification of total phenolic and flavonoid contents from E. viviparum aerial parts was determined. The simple micropropagation protocol designed allowed obtaining a high rates of shoot multiplication (5.1–5.8 new shoots), rooting (100%) with healthy long roots (3.1–3.5 cm) and plantlet acclimatization (96%). Moderate antioxidant activity was recorded in hydromethanolic extracts from E. viviparum aerial parts. High correlation between total phenolic content and BAP levels in the culture media was found. In conclusion, the micropropagation procedure described here for the endangered E. viviparum can be used as new and very efficient ex situ conservation strategy, and as potential source of antioxidants, conferring an added-value to this plant.

     

Evaluation of peanut genotypes for in vitro plant regeneration using thidiazuron

A major limitation with the available protocols for in vitro regeneration of peanut (Arachis hypogaea L.) is their narrow application to very few select genotypes. Here, we report a protocol that can be applied across a broad spectrum of peanut market types, explant types and geographic regions using thidiazuron (TDZ). The effect of the timing of TDZ application to the culturing of both zygotic embryos and subsequent plantlet explants on MS medium is also reported. An extended use of TDZ and at a higher concentration (30 m/l) resulted in the greatest explant shoot average (approximately 13). However, a limited application of TDZ (10 d) was sufficient to induce shoot formation in peanut. Hypocotyl was the best explant type that induced the greatest shoot average (15) across market types followed by lamina (7.4). Spanish and Valencia were the most efficient market groups that induced shoots across explant types, consistently.     

In vitro rapid regeneration of plantlets from nodal explants of Mucuna pruriens– a valuable medicinal plant

A rapid and efficient protocol for the large‐scale propagation of a potential medicinal plant, Mucuna pruriens, through in vitro culture of nodal segment explants obtained from 15‐day‐old aseptic seedlings is described. Of the three different cytokinins, 6‐benzyladenine (BA), kinetin (Kin) and 2‐isopentenyl adenine (2‐iP) evaluated as supplements to Murashige and Skoog (MS) medium, BA at an optimal concentration of 5.0 μM was effective in inducing multiple shoots. Strength of the basal media also influenced the efficiency of shoot regeneration. The frequency of shoot regeneration tended to increase when the salt concentration in the basal media was reduced. Highest number of multiple shoots (23.3) and maximum average length (5.6 cm) were standardised on half‐strength MS medium supplemented with 5.0 μM BA along with 0.5 μM α‐naphthalene acetic acid (NAA) at pH 5.8. Rooting was best induced in shoots excised from proliferated shoot cultures on MS medium augmented with an optimal concentration of 1.0 μM indole‐3‐butyric acid (IBA). The in vitro‐raised plantlets with well‐developed shoots and roots were successfully established in earthen pots containing garden soil and were grown in greenhouse with 90% survival rate. The results of this study provide the first report on in vitro plant regeneration of M. pruriens.     

An efficient in vitro regeneration of Ceropegia noorjahaniae: an endemic and critically endangered medicinal herb of the Western Ghats

An efficient protocol was developed for the rapid in vitro multiplication of an endemic and critically endangered medicinal herb, Ceropegia noorjahaniae Ans., via enhanced axillary bud proliferation from nodal explants. The effects of phytohormones [6-benzylaminopurine (BAP), kinetin (Kin) thidiazuron (TDZ), indole-3-acetic acid (IAA), indole-3-butyric acid (IBA) or α-naphthalene acetic acid (NAA)] on in vitro regeneration were investigated. The highest number of shoots (18.3 ± 1.3), maximum shoot length (10.1 ± 0.8 cm) and the highest response of shoot induction (95 %) were recorded on MS medium supplemented with 2.0 mg/l BAP. Rooting was best achieved on half-strength MS medium augmented with IBA (1.0 mg/l). Half-strength MS medium supplemented with BAP (4 mg/l) and sucrose (5 %, w/v) produced an average of 5.6 flower buds per microshoots with highest (90 %) flower bud induction response. The plantlets regenerated in vitro with well-developed shoot and roots were successfully established in pots containing sterile sand and coco peat (1:1) and grown in a greenhouse with 85 % survival rate. The regenerated plants did not show any detectable morphological variation. The developed method can be successfully employed for large-scale multiplication and conservation of C. noorjahaniae.     

Genetic diversity and population structure of Nuphar submersa (Nymphaeaceae), a critically endangered aquatic plant endemic to Japan,and implications for its conservation

Journal of Plant Research - Nuphar submersa (Nymphaeaceae) is a critically endangered freshwater macrophyte indigenous to central Japan, with only four small extant populations represented across...     

Importance of demography and dispersal for the resilience and restoration of a critically endangered tropical conifer Araucaria nemorosa

Aims In situ species survival involves persistence at current sites and/or colonization of new locations. Determining the likelihood of these events requires an understanding of population dynamics and dispersal. We address these issues in populations of a critically endangered tropical conifer Araucaria nemorosa and provide conservation recommendations. Location Port Boise, island of Grand Terre, New Caledonia, Pacific Ocean. Methods We characterize the demographic structure of six populations of A. nemorosa based upon size class frequencies and relative basal area compared to competing angiosperm trees. Using genotype data from 280 adult individuals at seven microsatellite loci, we indirectly estimate dispersal distances and project a maximal dispersal envelope around the extant populations. Results Our survey detected marked differences in demographic parameters including the proportion of basal area occupied by A. nemorosa versus angiosperm trees (ranging from 25% to 77%), the size class frequency distributions of A. nemorosa and seedling densities (ranging from 500 to 37300 seedlings ha^?1) among some populations. Wright’s genetic neighbourhood ranged from 22 to 876 trees, and historic gene dispersal ranged from 10.8 to 82.4 m, indicating that most seed dispersal is <100 m. Main conclusions This study indicates that the risk of recruitment failure in remnant populations of Araucaria nemorosa is low in most of the stands but is high in the inland population Forêt Nord. In situ natural regeneration appears to be constrained in this population, most likely as a consequence of competitive exclusion. Our results also suggest that the majority of seed dispersal is too short to allow A. nemorosa to disperse to new more hospitable sites within an ecologically relevant time‐scale. Our findings have implications not only for this emblematic tree species but also for a wide range of fragmented and degraded plant species populations with limited dispersal that are vulnerable to competitive exclusion.     

In vitro organogenesis and plant regeneration of Thymus serpyllum L.: an important aromatic medicinal plant

An efficient in vitro propagation system has been developed for the rapid micropropagation of Thymus serpyllum L. (Banajwain), an aromatic medicinal herb from nodal explant on MS medium. Phenolic leaching and high rate of contamination was the most significant problem in establishing in vitro culture of Thymus serpyllum which was overcome by preparing explants in an antioxidant ascorbic acid (1000 ppm) at 6°C for 45 min and addition of the same antioxidant (50 mgl⁻¹) to the MS medium. The frequency of shoot production was influenced by different cytokinins (Kn, BAP, and Kn + BAP) and 95.56% shoot induction was observed when MS medium was supplemented with 1.0 + 2.0 mgl⁻¹ (Kn + BAP). The maximum average number of shoots 16.93 ± 2.15 and average length (3.98 ± 0.55) was recorded when MS medium have 0.5 + 2.0 mgl⁻¹ (Kn + BAP). The in vitro regenerated microshoots were rooted on MS and half strength MS medium and there was significant difference in root induction on both media under the influence of auxins (IAA, IBA, and NAA). The maximum average number (11.67 ± 3.03) and average root length (3.88 ± 0.71) was reported in half MS medium having 1.0 mgl⁻¹ IBA. The complete regenerated plantlets were acclimatized under growth chamber before transferring to the earthen pots and showed 90% survival.

Graphical abstract

     

In vitro plant regeneration from embryogenic cultures of a diploid and a triploid,Cavendish banana

Plant regeneration by somatic embryogenesis was attempted with diploid (Musa acuminata ssp. malaccensis) and triploid ('Grand Nain') bananas. Explants inoculated in vitro were, respectively, immature zygotic embryos and male flower bud primordia. An histological study showed that the embryogenic process involves a sequence of similar events for both species. A yellow-green compact callus was initiated, which consisted of an actively dividing meristematic zone surrounded by several layers of starchy cells. A white and friable callus, characterized by the presence of proembryonic cells, bicellular proembryos and proembryonal masses in its periphery gradually appeared, which finally gave rise to somatic embryos from which plants were recovered. Induction media contained 2,4-D (and also NAA and IAA for the triploid); zeatin and kinetin were necessary for embryo maturation and 6-BA and IAA were used for germination. This revised version was published online in June 2006 with corrections to the Cover Date.     

In vitro high frequency plant regeneration of a tree legume Tamarindus indica (L.)

Optimal culture conditions for high frequency plant regeneration from excised cotyledons of Tamarindus indica were established. Maximum shoot bud differentiation (100%) occurred when the adaxial surface of the entire cotyledon (excised from 12-d old seedlings) was in contact with MS medium containing 5×10^–6M BAP. On MS alone only roots were formed. Shoot or root formation was confined to nodal tissue at the top of the notch present on the adaxial surface at the proximal end of the cotyledon. Thirty-four to 95 shoots were regenerated in a 4 month period from individual cotyledons. Shoots were rooted on MS with 5.7×10^–6M IAA. IAA (5.7×10^–7M) alone induced complete plant formation. Regenerated plants were established in the soil with 70% success.Abbreviations BAP 6-benzylaminopurine - KIN kine-tin - 2-iP 6-Y-Y-dimethylallyl aminopurine - AdS adenine sulphate - IAA indole-3-acetic acid - IBA indole-3-butyric acid - NAA 1-naphthalene acetic acid - MS Murashige and Skoog (1962) medium     

In vitro plant regeneration from seedling explants of Stereospermum personatum D.C.: a medicinal tree

Padar (Stereospermum personatum, family Bignoniaceae) is a well-known medicinal tree. Its complete regeneration occurred through shoot bud culture in vitro. The seeds germinated sequentially on plastic trays and polyethylene bags for 21 days served as explants source. Nodal segments from the seedlings were established on MS medium supplemented with 4.44 μM BA, in which 86.6% nodes showed shoot bud elongation. Then, nodal segments from the developed shoots were cultured on MS medium with several BA concentrations; best shoot multiplication was obtained with 0.44 μM BA. In a second experiment where PVP was added to proliferation medium, nodal segments from developed shoots produced maximum 2.78 shoots per node. The nodal segments showed shoot multiplication up to seventh subculture on. Finally, shoots were rooted on MS medium with 2.46 μM IBA. The plants transferred to net pots containing coco-peat were acclimatized in green house, where more than 80% plants survived and grew normally.     

Demographic costs and benefits of herbicide‐based restoration to enhance habitat for an endangered butterfly and a threatened plant

Restoring habitat degraded by invasive species is often a primary focus of conservation strategies, yet few studies investigate the effects of invasive species control on multiple at‐risk taxa. Selective herbicides are increasingly used because they can selectively reduce aggressive invasive plant species with the aim of minimizing effects on other taxa within the habitat. We conducted a four‐year experiment to test how annual application of grass‐specific herbicide affected the demography on Fender's blue butterfly (Icaricia icarioides fenderi) and Kincaid's lupine (Lupinus oreganus), two federally protected species which persist in highly degraded prairie remnants in western Oregon, USA. Effects of herbicide application were transitory for the butterfly; reduction of invasive grasses increased fecundity and led to higher annual population growth (λ) at one of two conservation areas in the first season. There were no detectable differences in λ in subsequent seasons—suggesting that treatments caused neither extensive harm nor extensive benefit to the butterfly population. For the lupine, there were no detectable differences in leaf and flower abundance between control and herbicide treatments. However, greater seed production in herbicide plots in the first and third seasons suggests that lupines in herbicide‐treated plots have greater potential reproductive success. While treatments do not have a long‐term benefit to annual population growth for the butterfly, increasing reproductive success of the threatened plant may justify integrating this strategy into restoration plans. Considering the impact of restoration practices on the demography of multiple at‐risk taxa within a community is critical to effective recovery strategies.     

In vitro zygotic embryo germination and propagation of an endangered Boswellia serrata Roxb., a source of boswellic acid

This study aims to establish an efficient protocol for development of seedlings of an endangered medicinally important forest tree Boswellia serrata Roxb., for mass plantation and consistent supply of salai guggul. The green mature fruits served as source of seeds. The excised green zygotic embryos were cultured on Gamborg (B5), McCown and Loyd (WPM) and Schenk and Hildebrandt (SH) media fortified with different concentration of sucrose and on Murashige and Skoog (MS) medium containing 3 % sucrose, polyvinylpyrrolidone (PVP) (0–300 mg l^−l), Gibberellic acid (GA₃), Indoleacetic acid (IAA), Naphthaleneacetic acid (NAA), Indole-3-Butyric acid (IBA) or 2,4-dichlorophenoxyacetic acid (2,4 D) and 6-benzylaminopurine (BA) or kinetin (Kin) individually. The highest frequency of embryo germination (96 %) and conversion into seedling was obtained on MS medium containing 3 % sucrose together with 200 mg l^−l PVP; other media were either inferior or induced abnormalities in the seedlings including callus formation from the zygotic embryos. Fully developed seedlings could be successfully established in soil with about 94 % survival. The embryos from mature dry seeds did not respond for germination in any of the experiments. In conclusion, selection of zygotic embryo from green mature seeds and their in vitro germination is important for propagation of B. serrata.