A Review on Medicinal and Ethnomedicinal Uses, Biological Features, and Phytochemical Constituents of Sesbania sesban L. Merr., A Nitrogen-Fixing Plant Native to the Republic of Chad

This study reports on a literature review of the leguminous tree Sesbania sesban (L.) Merr which is found in the N'djamena region, the Republic of Chad. The study focused on S. sesban's medicinal and ethnomedicinal uses, biological features, and phytochemical constituents to assist in future evaluations. A literature review was conducted using academic websites, such as Science Direct and Springer, online international plant databases, and data from national herbaria. S. sesban is a perennial shrub or tree that measures 3-4 m in height. This species is becoming rare in N'djamena but can be found in the rainy season, while in winter, it occurs mainly in ponds (called the Chadian dialect “Bouta”) and on the shores of the Chari and Logone rivers. The local inhabitants in Chad use the species as medicine, livestock feed, and fuelwood and for improving soil fertility and repelling desert encroachment. Traditional healers use its leaves to treat breast cancer and edema. S. sesban is an essential species native to the Republic of Chad that needs conservation and valorization. Viewing its importance and rarity in N'djamena , a strategy for replanting the species in gardens, homes, and fields around N'djamena and other regions of Chad is recommended.


Introduction
Te taxonomic diversity of legumes is enormous.In addition, they provide important benefts to humans including food, medicines, and environmental services.For example, leguminous food grains include beans (Phaseolus vulgaris L.), peas (Pisum sativum L.), soya beans (Glycine max L.), and forage legumes such as clover (Trifolium repens L.), sainfoin (Onobrychis Mill.), and S. sesban L. Merr.Tese plants (leguminosae) also fx atmospheric nitrogen via their symbiotic association with soil bacteria, belonging to the genera Rhizobium, Azorhizobium, Bradyrhizobium, and Sinorhizobium [1].Tey can be used for soil improvement [2].Nitrogen is commonly the most limiting element in food production and one of the most expensive in fertilizers.Tis special ability of leguminous crops to work symbiotically

Distribution of S. sesban in Africa, Chad, and Other
Countries.Te genus Sesbania (Fabaceae or Papilionaceae) consists of about 50 species of fast-growing trees and is composed of annual shrubs and perennial woody plants that are widespread in the tropics and subtropics [22], with a large number of accessions collected [10,23].Some 33 species are found in Africa, distributed between central and eastern Africa.S. sesban is widely distributed in semiarid to subhumid regions throughout the continent [18].It develops in the wild in most geographical zones of Africa and in many diferent soil types [23].Orwa et al. [6] reported that the other African countries where S. sesban is found in habitat are Chad, Egypt [14], Kenya, and Uganda.More recent databases on species distribution such as the Plants of the World Online [24] and Atlas World Agroforestry (Climate Change Atlas) [25] showed that the native range of this species S. sesban is Tropical and South Africa, Arabian Peninsula, and Indian Subcontinent.It is a shrub or tree that grows primarily in the seasonally dry tropical biome.Dufour-Dror [26] reported that S. sesban is an invasive species in Israel and the U.S. state of Hawaii [26].It has become naturalized in many of the countries where it is cultivated and is characterized by very rapid early growth [27] (Figure 2).
In Chad, Sesbania species include S. sesban (Figure 3) and S. microphylla Harms ex.Phill and Hutch, S. leptocarpa D.C., S. pachycarpa D.C., S. pubescens D.C., S. rostrata Brem.and Oberm., S. sesban (L.) var.nubica Chiov., S. sesban subsp.punctata D.C. and Gillett, and S. dalzielii E. Phillips and Hutch [13,14].Chad is a centre of diversity for some of these species.However, Sesbania species have not been fully exploited as multipurpose plants in many central African countries [13].As reported by César and Chatelain [14] and [21], S. sesban is found in diferent niches in Chad such as on riverbanks, in stream beds and wetlands, and around the water sources of Borkou and Ennedi (Figure 3).

Habitat and Ecology.
Widely adapted, S. sesban tolerates drought, waterlogging, soil acidity, alkalinity, and salinity [29].S. sesban grows well in the subtropics and in cooler, higher elevation regions of the tropics [6,30].It is 2 Te Scientifc World Journal ideally suited to seasonally fooded environments [6].It occurs naturally in wet habitats such as lake shores, on muddy river banks, and in seasonally fooded valley bottoms [5].In Chad, S. sesban is becoming rare in N'djamena but can be found in the rainy season, while in winter, the species occurs mainly in ponds (called in Chadian dialect "Bouta") and on the shores of the Chari and Logone rivers (Ousman B. M., 2024) (unpublished).It also grows in open savannah [31] and dry, semiarid zones [21,23].It grows in a wide variety of soils from loose, sandy soils to heavy clays [32,33].S. sesban has moderate tolerance to frost [34].S. sesban grows well on acidic and infertile soils in a semiarid region of Rwanda [35].
3.1.4.Pests and Diseases.Sesbania spp. is attacked by nematodes, insects, fungi, and viruses [6].Te leaf-eating beetle Mesoplatys ochroptera can completely defoliate S. sesban leading to mortality.Various caterpillars, Hymenoptera, and stem borers attack S. sesban.Some potentially destructive root-knot nematodes have been recorded in India on S. sesban [6].Sesbania is infected by mild and severe mosaic disease virus, which is transmitted by sap and roots, showing vein clearing and reduction of leafets.Te prevalence of infection with mosaic disease virus ranges from 5 to 20%.Sesbania plants grown in vitro with mild mosaic virus inoculation had fewer pods and were very small.Te virus inoculated in vitro has great tolerance to dilution (between 1000 and 10,000), resistance to heat (40-60 °C), and has longevity in vitro varying between 10 and 14 days [36].Sileshi et al. [37] conducted a survey in Southern Malawi and found that insects Anoplocnemis curvipes, Aphis fabae, Hilda patruelis, Megalurothrips sjostedti, Mylabris dicincta, Nezara viridula, and Ootheca spp.have the potential to become pests of S. sesban.
We note that the botanical missions carried out on S. sesban date from 1968 by the botanist, Léonard [19], and from 2019 by the botanists, César and Chatelain [14].Léonard collected this species in 1968 in the region of Lake Chad [19] (Figure 1).

Medicinal Use and Biological Activity.
In sub-Saharan Africa, the use of plant resources for therapeutic/medicinal, agricultural, and other purposes is common, hence the need for intervention in protecting and enhancing these resources [45].Te local population in Chad is aware of the importance of the species S. sesban and benefts from its use for Te Scientifc World Journal   [38].(b) S. sesban leaves and stem [39].(c) S. sesban fowers [39].(d) S. sesban seedpods [39].
medicine, for improving land cover and soil fertility, for feeding and shading livestock and for wood [46,47] (Ousman B. M, 2023) (unpublished).Abdelgawad et al. [48] conducted a holistic overview on S. sesban leaves and their phytoconstituents and pharmacological activities or efects [49] and presented that S. sesban leaves exhibited several therapeutic potentials such as antioxidant, antimicrobial, antiviral, anthelmintic, molluscicidal, antifertility, antiinfammatory, antidiabetic, antihyperlipidemic, anticancer, antianxiety, and mosquito repellant properties.More detail is provided in the subsection text as follows.[41] found further evidence of S. sesban's antioxidant activity.Tey extracted anthocyanin compounds, total phenol, and favonoids from S. sesban fower petals using methanol and acidifed methanol extracts.Te anthocyanin content confrmed by ferric chloride and aluminium chloride tests was used for analysing the antioxidant and antimicrobial properties.Te total anthocyanin content obtained from the methanol and acidifed methanol extracts was 0.38 mg/100 g and 0.28 mg/100 g, respectively.Te antioxidant activity of acidifed methanol extracts using the hydrogen peroxide test showed high scavenging activity of 84% at lower concentration (1 mg/ml) along with the standard butylated hydroxytoluene (37.65%).

Antimicrobial
Activity.Kathiresh et al. [41] found further evidence of S. sesban's antimicrobial activity.Te antimicrobial property of S. sesban fower extract was explained by the zone of inhibition occurring around the wells containing diferent concentrations of the extracts in the disc difusion assay.Tis antimicrobial activity of the samples after 24 hours showed that the zone of inhibition was found in Gram-positive bacteria (Staphylococcus aureus (1 mg) and Staphylococcus saprophyticus (12.5 mg)), whereas there was no inhibition in Gram-negative bacteria (Escherichia coli Klebsiella pneumoniae Klebsiella oxytoca, Proteus vulgaris, Streptococcus pyogenes, Pseudomonas aeruginosa, and Enterococcus faecalis).
Ahmed et al. [50] found further evidence of S. sesban's antimicrobial features justifying the use of the bark to treat a number of ailments in Bangladesh.Tey investigated the phytochemical screening of ethanol, ether, and chloroform extracts of the plant bark and found the presence of carbohydrates, favonoids, steroids, alkaloids, tannins, and saponins.Te antimicrobial activity using the disc difusion assay after 18 hours showed that the chloroform extract (at the dose of 250 μg/ml and 500 μg/ml) and the ethanol extract (500 μg/ml) of S. sesban bark inhibited all bacteria used: 5 Gram-positive bacteria (Staphylococcus epidermidis, Streptococcus pyogenes, Staphylococcus aureus, Enterococcus faecalis, Bacillus subtilis) and 9 Gram-negative bacteria (Shigella boydii, Shigella fexneri, Shigella sonnei, Shigella dysenteriae, Escherichia coli, Proteus vulgaris, Erwinia amylovora, Klebsiella pneumonia, Pseudomonas aeruginosa).In a disk difusion assay, 250 μg/ml of the ethanol extract of bark inhibited all microorganisms except for Proteus vulgaris and Enterococcus faecalis.Te ether extracts (both 250 μg/ml and 500 μg/ml) of S. sesban bark inhibited all microorganisms except for Proteus vulgaris.
3.2.4.Anthelmintic Activity.Ibrahim [51] examined the anthelmintic activity in vitro of S. sesban leaves aqueous extract (0.25-50 mg/ml) using the free-living rhabditid nematode, Caenorhabditis elegans.A considerable amount of anthelmintic activity was demonstrated by extracts of S. sesban leaves (2.5 mg/ ml) when the percentage mortality of Caenorhabditis elegans nematodes was 30% and 96% after 2 h and 6 h treatments, respectively.Seed extracts introduced percentage mortality of 5.6-25.5% at concentration levels of 0.25-50 mg/ml.Tey concluded that S. sesban showed the highest anthelmintic efect on Caenorhabditis elegans survival at concentration levels 2.5 mg/mL, and the median lethal concentration LC 50 values of S. sesban leaves were the most efective compared to other plant species studied.Te LC 50 attained 8.0 mg/mL at a minimum efective concentration of 2.5 mg/ml.
In the study of Limsay et al. [52], the hydroethanolic and aqueous leaf extracts of S. sesban (at a concentration of 5 and 10 mg/mL and 30 mg/mL for hydroethanolic leaf extract and ethyl acetate fraction) were evaluated for their anthelmintic activity in vitro, against Moneizia expansa and Paramphistomes using a Petri-dish method, with fenbendazole as the control.Te methanolic extract was also evaluated in rats for its anthelmintic efect in vitro against two intestinal parasites Hymenolepis diminuta (in rats), a cestode, and Syphacia obvelata (in mice), a nematode, with praziquantel and albendazole as reference drugs.Interesting results were obtained for this anthelmintic efect with the inhibition zone of 15.17 mm against Syphacia obvelata-mice at the concentration dose of 30 mg/mL of hydroethanolic leaf extract and 7.56 mm against Moneizia expansa at the concentration dose of 5 mg/ml of aqueous leaf extract [53,54].
Numerous studies across the world have shown that S. sesban has considerable potential for combating diseases and improving health.Kamel et al. [55] reported that the administration of S. sesban leaves' methanol extract to infected mice exhibited a moderate antischistosomal efect (against the parasite Schistosoma mansoni which infected mice).Te results suggest that the administration of S. sesban has antischistosomal properties, hence ameliorating liver function.In Sudanese folk medicine, the leaves and fruits of S. sesban were found to treat sore throat and gonorrhoea in the study of Elegami et al. [56].Tey investigated whether the leaves and fruits of S. sesban have antibacterial activity.Tey found that methanol extracts at the concentration dose of 100 mg/ml (0.1 ml/cup) were efective against pathogen bacteria used, namely, Bacillus subtilis NCTC 8236, Staphylococcus aureus NCTC 6447, Escherichia coli NCTC 8196, and Pseudomonas aeruginosa NCTC 6750.[42] tested the biological screening efects of S. sesban methanol stem extract on fve infectious fungal species (Aspergillus fumigatus, Colletotrichum gloeosporioides, Curvularia lunata, Fusarium oxysporum, and Verticillium glaucum) using the disc difusion assay.Te fungi Curvularia lunata and Fusarium oxysporum were inhibited completely by S. sesban methanol stem extract at the dose of 100 µg/ml and 500 µg/ml.For Aspergillus fumigatus, Curvularia lunata, and Verticillium glaucum, a higher degree of inhibition was obtained with the dose of 500 µg/ml.Tey concluded that the stem extracts of S. sesban possess a broad spectrum of activity against common bacterial and fungal diseases in the region of Coimbatore in India.

Antifungal Activity. Mythili and Ravindhran
Ahmed et al. [50] evaluated the antifungal activity of S. sesban bark against 7 fungi (Trichophyton rubrum, Microsporum fulvum, Candida albicans, Curvularia lunata, Aspergillus fumigatus, Fusarium oxysporum, and Saccharomyces cerevacae) using the disc difusion assay.Te result showed that the highest zone of inhibition was 14.2 mm against Fusarium oxysporum.Minimum inhibitory concentration (MIC) of these extracts was determined by the broth macrodilution assay.After 12 hours, the MIC of the extracts (ethanol, ether, and chloroform) was obtained at a higher concentration (8000 µg/ml) than the extract content in the disc (250 µg/ml and 500 μg/ml).

Anti-Infammatory Activity.
In India, many people use S. sesban leaves to relieve rheumatic pain and the biochemical evidence supporting this is clear [43].Crude saponins (containing triterpenoids and steroids) extracted from S. sesban leaves showed an antiinfammatory efect on experimental-induced rats and mice [43].Rats pretreated with saponins signifcantly decreased (p < 0.01) the carrageenan-induced paw edema by 59% at a higher dose of 500 mg/kg, 3 h after the injection of the noxious agent.Rats pretreated with saponins signifcantly inhibited (p < 0.01) the histamine-induced rat paw edema by 38.41 and 43.02% at the dose of 250 and 500 mg/kg, respectively.Te test of cotton pellet granuloma in rats showed that saponins (500 mg/kg) inhibited the formation of fbroblasts by 38.17% which was comparable with that of standard diclofenac sodium (44.32%).In the oxazolone-induced delayed hypersensitivity test, saponins (500 mg/kg) showed maximum inhibition (69.68% after 22 days) of ear edema comparable to the standard drug which gave 73% inhibition after 22 days.Saponins therefore showed signifcant activity in the acute phase of infammation in the in vivo and in vitro models at the oral dose of 500 mg/kg body rats' weight when compared to the control and standard drug.
Similarly, Shaikh et al. [32] evaluated the antiinfammatory activity of S. sesban leaf extracts of petroleum ether (60-800), chloroform, and methanol.Te acute toxicity study of extracts of leaves of S sesban showed 50% mortality at a dose 2500 mg/kg.Hence, 1/10th of the same dose for all these extracts was taken as a therapeutic dose, i.e., 250 mg/kg.Te methanolic extract showed a signifcant antiinfammatory activity reducing paw edema (the dose of 250 mg/kg administered reduced 45.34% of the reduction within three hours) compared to the control group, carrageenin and ibuprofen.Petroleum ether (60-80 °) extract and chloroform extract showed comparatively less reduction in paw edema volume.Tin layer chromatography using the solvent system toluene:chloroform:methanol (1 : 1 : 0.8) followed by the column chromatography for separation and isolation of the constituents of the methanolic extract showed three separated constituents: Constituent I (fuorescent green color), Constituent II (pink color), and Constituent III (fuorescent green color).Constituent II showed a signifcant reduction in paw edema (at the dose of 250 mg/kg) meaning signifcant anti-infammatory activity after three hours (with a percentage of 54.06) as compared to the standard.Te preliminary phytochemical investigation S. sesban extracts showed the presence of the following active principles: sterols, saponins, favonoids in methanol extracts; fats and oil in petroleum ether (60-80 °) extracts; and sterols, alkaloids, and favonoids in chloroform extracts.Te study did not show any approximate percentage, while it showed simply the presence or absence of these active principles obtained.
Te Scientifc World Journal Ahmed et al. [50] found further evidence of S. sesban's cytotoxic features, and the cytotoxicity activity was investigated by the brine shrimp lethality bioassay to determine the percent mortality nauplii caused by the test extracts.Te LC 50 (lethal concentration in half ) values of ethanol, ether, and chloroform extracts of bark were found to be 1280, 640, and 320 µg/ml, respectively, after 24 hours.
3.2.8.Antidiabetic Activity.Pandhare et al. [57] evaluated the aqueous leaf extract of S. sesban for its antidiabetic potential in normal and streptozotocin (STZ)-induced diabetic rats.Doses of 250 and 500 mg/kg body weight per day for 30 days were administered to normal and streptozotocin-induced diabetic rats.Te aqueous leaf extract administered (250 and 500 mg/ kg/day) to streptozotocin-induced diabetic rats (compared to the antidiabetic drug glibenclamide (0.25 mg/kg body weight) indicated a signifcant increase in the body weight, liver glycogen, serum insulin, and high-density lipoproteins cholesterol levels and decrease in blood glucose, glycosylated haemoglobin, total cholesterol, and serum triglycerides.Finally, the study concluded that the aqueous leaf extract of S. sesban has benefcial efects in reducing elevated blood glucose levels and the lipid profle of streptozotocin-induced diabetic rats but has no efect on normal rats.
Manjusha et al. [58] found that S. sesban root extract may have a hypoglycaemic potential for treating type 2 diabetes.Teir results show that the doses (250, 500, and 1000 mg/kg) of S. sesban root extract administered orally to normal and streptozotocin (STZ)-induced type-2 diabetic mice caused a marked decrease in fasting blood glucose in STZ-induced type-2 diabetic mice.S. sesban root extract decreased the cholesterol, triglyceride, urea, and creatinine levels and increased insulin, high density lipoproteins, cholesterol, and total protein levels.
3.2.9.Antinociceptive Activity (Analgesic).Nirmal et al. [59] investigated wood's antinociceptive agents that are compounds capable of diminishing pain without negative efects on consciousness or without producing anaesthesia [60].Te antinociceptive activity was determined by hot plate and acetic acid-induced tests.Doses were selected on the basis of a toxicity study, and mice were divided into 18 groups of 6 animals each.Te experiment was terminated 20 seconds after their placement on the hot plate to avoid damage to the paws.Petroleum ether, chloroform, and ethyl acetate extracts (50 and 100 mg/kg) showed signifcant results just 30 minutes after treatment, while their action was blocked by the opioid antagonist, naloxone (1 mg/kg).Te involvement of opioid receptors (transmembrane neurotransmitters) was revealed by giving the extracts after an opioid antagonist (naloxone) (1 mg/kg).Te mechanism of the analgesic efect of the extracts of S. sesban wood could probably be due to blockage of the efect or release of endogenous substances that excite pain nerve endings [59].Tey concluded that petroleum ether, chloroform, and ethyl acetate extracts of wood showed potent antinociceptive activity, while naloxone blocked the antinociceptive activity of the extracts by inducing opioid receptors.

Control of Fertility. Some studies suggest that
S. sesban may have potential as an ingredient in contraceptives.Shiv [61] studied the efect of S. sesban seed powder in female albino rats to evaluate its efects on genital organs and fertility.In the results, rats in the control group did not show any change in body weight and genital organ weight.Te dose 100 mg/kg for 30 days of administration had no deleterious efect on ovarian tissues, whereas the 250 mg/kg dose severally afected the ovarian structure, mature follicles underwent atresia, some developing follicles showed lysis of ova, and the stroma was compact with poor vascularity.However, the genital organ weight was reduced signifcantly (P < 0.05) after the treatment at 250 and 400 mg/kg/day doses for 30 days.Te dose of 250 mg/kg reduced endometrial height and size of the uterine glands.Te administration of 400 mg/kg for 30 days caused a great reduction in endometrial height and uterine glands.Te control group of rats showed normal fertility; all became pregnant and showed a good number of implants, whereas the dose 100 mg/kg dose showed pregnancy and reduction of implants.Te doses 250 and 400 mg/kg showed 100% antifertility activity, and no implants were recorded in the uterus of these rats on the 10th day of pregnancy.Te experiment showed that S. sesban seed powder inhibits ovarian function, changes the uterine structure, and prevents implantation and, thus, controls the fertility of female albino rats [61].
In another study, Das et al. [62] isolated from S. sesban roots extracts an active principle oleanolic acid 3-beta-Dglucuronide (OAG) which is suggested to have a potent spermicidal activity.In the experiment, the dose of the minimum efective concentration (MEC) of OAG was 50 mcg/mL after one hour of the treatment and induced 100% immobilization of the sperm.More than 97% of the OAG-treated sperm lost their hypoosmotic swelling responsiveness in a dose-dependent manner.Transmission electron microscopy and sperm membrane lipid peroxidation revealed that OAG afected the sperm membrane integrity.All observations in the experiment clearly demonstrated that OAG has very strong antifertility activity and other properties that qualify the agent to serve as an active ingredient of vaginal contraceptives [62].

Central Nervous System Stimulant.
Te aqueous extract of S. sesban bark has a potential central nervous system (CNS) stimulant efect [63].Te investigation of CNS stimulant activity was carried out on albino mice, and cafeine was used as a reference drug.Te animals receiving the treatment were divided into three groups: Group I served as control and was treated orally with vehicle (normal saline), Group II served as the standard, and cafeine 30 mg/kg was given, and Group III received aqueous extract of S. sesban bark at the dose of 400 mg/kg.In the elevated plus maze experiment, the animals received the treatment 45 min before the start of the session.At the beginning of the session, a mouse was placed at the centre of the maze, its head facing the closed arm.It was allowed to explore the maze for 5 minutes.Te time spent in the open arms, percent entries in the open and closed arms, and total entries were Te Scientifc World Journal recorded.An entry was defned as the presence of all four paws in the arm.Naik et al. [63] concluded that the crude aqueous extract at a dose of 400 mg/kg after 48 hours showed signifcant central nervous system CNS stimulant activity in comparison to the control group, and the results were comparable to the activity shown by the reference drug.Table 2 summarizes S. sesban's medicinal use, the biological activity, the plant parts used and optimal solvents, the dosage regimen and its corresponding concentrations, and the active constituents.
3.2.12.Molluscicidal Activity.S. sesban leaf extracts showed molluscicidal activity.In the study of [64], the efects of sublethal concentrations of methanol extract of S. sesban leaves on the survival rate, egg laying of Bulinus truncatus snails, hatchability of their eggs, infection rate with Schistosoma haematobium miracidia, cercarial production, and certain physiological parameters of treated snails were studied.In the results, after 24 hours of exposure, the sublethal concentrations of the tested plant extract (LC 0 � 1.8 ppm, LC 10 � 8 ppm, LC 25 � 14, LC 50 � 18 ppm, and LC 90 � 31 ppm) caused a considerable reduction in survival rates; egg production of Bulinus truncatus snails; and hatchability of eggs as well as in the infectivity of Schistosoma haematobium miracidia to the snail.Te longevity of Bulinus truncatus snails exposed continuously to sublethal concentrations of methanol extract of S. sesban decreased from LC 0 � 22.5 ± 6.2 days to LC 10 � 11.8 ± 4.2.Te death rate of Bulinus truncatus snails in groups treated with LC 0 was highly signifcant as compared with those in groups treated with LC 10 and LC 25 (p < 0.01).A reduction in cercarial production per snail and the period of cercarial shedding were also observed.Glycogen level, protein content, and the activities of hexokinase (HK), pyruvate kinase (PK), and lactate dehydrogenase (LDH) showed a decrease in soft tissues when compared with the control group.Tey concluded that the application of a sublethal concentration of methanol extracts of S. sesban leaves may be helpful in snail control as it interferes with the snails' biology and physiology.
Furthermore, in the study of [65], the molluscicidal activity against snail species Biomphalaria alexandrina infected with Schistosoma mansoni was investigated.Biomphalaria alexandrina species was treated with aqueous extracts of S. sesban leaves.Te extracts signifcantly lowered the infection rate of the snail.Exposure of snails for 4 weeks to LC 10 and LC 25 of S. sesban leaves (dry powder) considerably suppressed their fecundity and the reproduction rate.Te reduction rate of reproduction for the exposed snail to LC 25 of S. sesban was 76.4%.Infection rates of snails treated during miracidial exposure with LC 10 of S. sesban was 52.2% compared to 92.6% for the control group (p < 0.01).Snails exposed to LC 25 of S. sesban leaves extracts showed a reduction of the duration of cercarial shedding and cercarial production/snail with a value of 223.2 cercariae/snail compared to 766.3 cercariae/infected control snail (p < 0.01).It is concluded that LC 25 of S. sesban leave aqueous extracts negatively interferes with biological and physiological activities of Biomphalaria alexandrina snails; consequently, it could be efective in interrupting and minimizing the transmission of Schistosoma mansoni [65].Saponins are some of the secondary metabolites that are synthesized by many plants [66].Te molluscicidal activity of S. sesban can be attributed to saponins whose mode of action is believed to cause cell membrane rapture causing water and ions to fow uncontrollably into and out of the cell.Tis causes the cell to lose integrity leading to the death of the snails [49].
3.2.13.Phytochemistry of S. sesban.S. sesban has diferent chemical compounds that are, once extracted, very useful for treating diseases such as antibacterial and antioxidant agents, for manufacturing drugs and organic or chemical supplements.Tey are also useful for manufacturing biological manure [41,67].Te phytochemical screening test of diferent leaf extracts of S. sesban (methanol, chloroform, and petroleum ether (60-80 °)) in the study of [32] revealed the presence of sterols, saponins, favonoids, alkaloids, fats and oils, proteins, sterols, anthraquinone glycosides, gums, and miscellaneous compounds.Carbohydrates, vitamins, amino acids, tannins, and saponins, and glycosides are also detected in the screening test of the aqueous extracts in the study of [57].Ahmed et al. [50] studied the chemical screening of S. sesban bark, and the results indicated the presence of carbohydrates, favonoids, steroids, alkaloids, tannins, and saponins in the ethanol, ether (diethyl ether), and chloroform extracts (95% each one).
Samajdar and Ghosh [68] reported from diferent studies that the preliminary phytochemical screening of S. sesban uncovered the presence of triterpenoids, starches, vitamins, amino acids, proteins, tannins, saponins, glycosides, and steroids.Blossoms contain cyanidin and delphinidin glucosides.Dust and dust tubes contain alpha-ketoglutaric, oxaloacetic, and pyruvic acids.Leaf and unit contain campesterol cholesterol, beta-sitosterol, triterpenoids, proteins, and tannins.Bark and stem contain glucose, fructose, erythritol, arabinitol, and myo-inositol.Diferent kinds of lignins are made out of guaiacyl, syringyl, and Phydroxyphenylpropane building units and furthermore antitumor vital kaempferol disaccharide [68][69][70].Sterols and triterpenes are detected in petroleum ether and chloroform extracts of S. sesban wood and favonoids in ethyl acetate extract in the study of [59].Carbohydrates, alkaloids, phytosterols, saponins, glycosides, and phenolic compounds are detected in petroleum ether, chloroform, and aqueous extracts of S. Sesban bark [63].In the study of [42], the phytochemical analysis of the methanol and ethanol extracts of both stem and root of S. sesban revealed the presence of alkaloids, carbohydrates, proteins, phytosterol, phenol, favonoids, fxed oil, and gum.Te leaf extract showed the presence of alkaloids, carbohydrates, protein, phytosterol, favonoids, and fxed oil.
Leaves of S. sesban are used as supplementation for growth and reproduction performance in 30 male Ethiopian highland sheep and 25 East African goats [71].In this study, many chemical compositions in S. sesban' leaves for the feed ingredient were detected among them: dry matter, crude Te Scientifc World Journal 10 Te Scientifc World Journal protein, gas production, ash, neutral detergent fbre, acid detergent fbre, neutral detergent fbre-bound nitrogen, soluble proanthocyanidins, quercetin, and saponin [71,72].Anthocyanins, phenols, and favonoids are identifed in methanol and acidifed methanol extracts of S. sesban fower petals [41].Te oleanolic acid 3-β-D-glucuronide has been isolated and evaluated from the root extracts of S. sesban [62].In the chemical study of Abdelgawad et al. [48], many phytochemical compounds of S. sesban leaves were presented and had a variety of essential metabolites belonging to diferent chemical classes including steroids, triterpenoids, saponins, favonoids, coumarins, lipids, and other miscellaneous compounds.Details of phytochemical compounds extracted from part of the species S. sesban with the extraction solvent are shown in Table 3.

Ethnomedicinal Uses of S. sesban 3.3.1. Treating Breast Cancer, Edemas, and Wounds.
Healers in Chad use the leaves and bark of S. sesban alone to treat breast cancer, edemas, and wounds.Breast cancer is treated in traditional medicine by macerating the leaves for 48 hours or using an infusion of root and bark.After macerating the leaves, the juice obtained was drunk in the morning and evening.To treat edema and swollen glands, the leaf powder is mixed with oil and then applied to the body until cure.In Chad, traditional healers often sell S. sesban formulations from leaves and bark to patients in the form of syrup or powder to treat breast cancer, edema, and wounds in the same manner as previous use.Healers sold such medicine about 360 times per year, earning an average of $1.74 per sale.Annual revenue thus amounted to about $US 625$/year (Ousman B. M., 2024) (unpublished).

Treating Livestock
Diseases.S. sesban is also used in treating livestock diseases.Harun-or-Rashid et al. [73] reported that the leaves of S. sesban are used in Bangladesh for the treatment of cattle diseases.Te leaves are administered orally to treat the retention of urine in cows, goats, and bufaloes.Similarly, Rahmatullah [74] conducted an ethnoveterinary survey among selected villages of Bagerhat district in Bangladesh and documented that S. sesban leaves and stems are used topically to treat pain arising from pox of cattle.Te leaves are dried in sunlight and then spread over the bodies of cows, goats, or bufaloes.At the same time, the bodies of cows, goats, or bufaloes are brushed with stems and leaves [74].Sori et al. [75] reported that pastoralists of Borana district in the Southern Ethiopia use S. sesban root and bark to treat mastitis in order to control the disease of the livestock.Te infusion of root and bark is topically used for the treatment of mastitis.

Treating Malaria.
Chinsembu [76] in Zambia and Rasoanaivo et al. [77] in Madagascar reported, respectively, that the vapour of S. sesban leaves obtained from boiling is inhaled two times a day for three days, and a drinking decoction of aerial parts is used to cure malaria.[68] reported that S. sesban leaves are used as mosquito repellents in India for livestock.Te preparation method is to wash the bodies of animals with water leaf extracts until cure [68].Te leaf decoction is used for cattle drench to repel tsetse fies in India [68].

Mosquito Repellant. Samajdar and Ghosh
3.3.5.Demulcent, Anthelmintic, Purgative, Anti-Infammatory, and Treating Eczema.Abdelgawad et al. [48] mentioned that S. sesban leaves have been traditionally used as anthelmintic, demulcent, purgative, and antiinfammatory agents in the treatment of eczema, in addition to its agricultural uses.Table 4 shows the ethnomedicinal use of S. sesban, plant part used, dosage regimen, and mode of preparation.

S. sesban Use for Soil Improvement in Agriculture and in
Cropping Systems.Land degradation and declining soil fertility are critical problems impacting livelihoods in many parts of Africa [3].

Inducing Root Nodules of Rhizobium Strains and Fixing
Nitrogen on the Soil to Improve It.In Chad, the local population uses S. sesban to enrich soil fertility of the cited soils for increasing yields of crops such as Oryza sativa L., Zea mays L., Sorghum bicolor L., and Cenchrus americanus (pearl millet) (Ousman B. M., 2024) (unpublished).
In México, Bashan et al. [8] have demonstrated that native leguminous trees such as S. sesban are essential to ensure the revegetation of eroded desert lands and restoration of severely eroded soil by fxing nitrogen, resisting salt and drought, and producing high biomass under desert conditions at the southern limit of the Sonoran desert in agricultural and agroforestry systems.Te population plants the leguminous trees such as S. sesban, Prosopis articulata, Parkinsonia microphylla, and Parkinsonia forida and inoculates with growth promoting bacteria Azospirillum brasilense, Bacillus pumilus, a native fungus Arbuscular mycorrhizal (AM), and small quantities of compost.A high density of these leguminous trees with shrubs and trees was obtained in these severely eroded soil areas with a remarkable degree of revegetation and more stabilized soil with a high volume of organic matter.
Samajdar and Ghosh [68] mentioned that S. sesban is appreciated for its nitrogen-fxing quantities and as a windbreak on farms in India.
Abbas et al. [23] found in Egypt that S. sesban intercropped with some annual grasses (barley, pearl millet, and Rhodes-rye and Sudan grasses) and inoculated with rhizobia improved the quality and quantity of feld forage crops.Tey also found that intercropping improved the productivity of nonlegumes, in particular barley mixed with the legume S. sesban, and the calculated N-transfer from legumes to nonlegumes ranged from 20 to 70 kg•N/ha.Tey concluded that intercropping of forage grasses with legumes is economic and has a high environmental return under the semiarid conditions of Egypt and that S. sesban performs better when intercropped with Sudan grass.
Te Scientifc World Journal  Te Scientifc World Journal Sobere [78], Bala et al. [79], and Sharma et al. [80] reported in the same way that Rhizobium strains induce root nodules and fx nitrogen from the air in symbiosis with S. sesban.
Curasson [7] and Rochester et al. [81] reported that S. sesban is cultivated in rotation with cotton in Sudan and Australia, and it may enhance soil fertility and improve soil conditions.S. sesban yields are reported to range from 28 to 35 tons/hectare after three years of growth [7].
Balaisubramanian and Sekayange [35] reported on an experiment in a semiarid site in Rwanda with S. sesban grown as a hedge spaced 5 meters apart in cultivation with beans (Phaseolus vulgaris L.), sorghum (Sorghum bicolor L.), maize (Zea mays L.), and sweet potato (Ipomoea batatas L.) that the produced foliar biomass was 1.78 and 0.59 t/hectare, respectively, for 1983/84 and 1985/86.Te wood produced was 0.27 and 0.28 t/hectare for 1983/84 and 1985/86, respectively.In addition, it allowed the production of nutrients for the soil of 25.6 kg of nitrogen/ha, 1.4 kg of phosphate/ha, 14 kg of potassium/ha, 16.2 kg of calcium/ha, and 4.4 kg of magnesium/ha, signifcantly improving soil fertility.
Other studies have found that S. sesban improves soil fertility.Bakhoum et al. [82] reported that planting nitrogenfxing trees such as S. sesban which is efective in increasing soil productivity.
Nigussie and Getachew [83] and Degefu et al. [18] reported that S. sesban can restore eroded soil by fxing nitrogen in the soil.Mengistu et al. [84] reported on the use of S. sesban as green manure in Ethiopia.S. sesban biomass decomposes rapidly due to its soft plant structure and high N content, and it provides nutrients to the soil and other plants.It is used for the improvement of fallows, mixed cropping, relay cropping, and biomass transfer [85].S. sesban helps restore and enhances soil fertility by drawing up nutrients from lower soil layers and then adds nutrients to the soil in litter fall [85].
Chandra et al. [86] harvested the biomass of S. sesban accessions 20 days after sowing and used it as a green manure crop in a rotation of rice-rice-mustard.Tey demonstrated that S. sesban can be grown and harvested in a very short period and still be useful for adding organic matter to the soil.Tey also pointed out that the decomposability, organic matter accumulation, and N 2 -fxing ability of S. sesban biomass make it a suitable cultivar for poor, nutrient-defcient soils [87].
In intercropping and alley cropping, agricultural crops are grown simultaneously with a long-term tree crop to provide annual income while the tree crop matures.Muimba-Kankolongo [88] reported that intercropping sweet potato with S. sesban improves the yield of the crop.In the same way, intercropping S. sesban with rice and annual grasses in semiarid conditions helps manage weeds and optimize the yield of dry-seeded rice [23,89].Singh et al. [89] concluded that the application of wheat residue mulch at 4 t/ha and S. sesban intercropped for 30 days were equally efective in controlling weeds associated with dry-seeded rice.Economic analysis showed that S. sesban was as efective as mulch in realising higher economic returns for dry-seeded rice yields during 2003 and 2004.S. sesban also has considerable potential in saline environments where many plants cannot grow.In southern Morocco, agriculture systems are limited by the lack of water resources and salinization of surface and underground freshwater sources.Te National Institute of Agronomic Research (INRA) has become interested in the adaptation of S. sesban to saline environments and its contribution to improving food and fodder production in desert areas.INRA scientists have successfully introduced S. sesban in a saline environment for these purposes in the region of Laâyoune [90].Bala et al. [91] also found that biological nitrogen fxation can be signifcantly increased by inoculating tree legumes such as S. sesban with salinitytolerant rhizobia under saline conditions.

Tolerating High-Salinity Soil (Up to 20%
).Some authors have reported on the ecological services of the species such as nodulation and its use in intercropping.Nohwar et al. [92] found that Rhizobia species isolated from S. sesban root nodules growing in diferent areas of Mumbai, India, have a capacity to adapt in high salinity (up to 20%) zones and have pH tolerance.Tey claim that these Rhizobia species from S. sesban are therefore suitable to be used as biofertilizers in unfavourable environmental conditions for legume cropping and could also help reduce the use of chemical fertilizers.Tey propose that they could be tested in agricultural felds to exploit their natural benefts.

Increasing the Plant Cover. S. sesban can play an
important role, along with other leguminous species, in land restoration and protection and conservation of indigenous species in Chad [47].In Chad, the local population, particularly pastoralists, plant S. sesban in diferent types of soils in the South region such as the vertisols, fuvisols, and subarid soils on sand, tropical ferruginous soils, and the arenosol along the banks of Lake Chad [93].Teir objective is to increase the plant cover, to use its wood for construction, and to repel desert encroachment in zones with little vegetation (Ousman B. M., 2024) (unpublished) [7,23,47,90].

Improving Fallows.
Te International Centre for Research in Agroforestry (ICRAF) has been greatly interested in the role of S. sesban in improving fallows, especially in the savannah woodland region of southern Africa [4,5,5].
Improved fallows involve planting mainly legume tree/ shrub species in rotation with cultivated crops.In Eastern Zambia, Phiri et al. [94] quantifed the yield, root zone, soil water balance, and water use efciency of maize in rotation with 2 years S. sesban fallow and of continuous maize with and without fertilizer.Te authors found that growing S sesban in depleted agricultural felds or on fallow land for 2 or 3 years and then introducing a hybrid maize crop after the fallow period produced encouraging results.S. sesban fallow increased grain yield and dry matter production of subsequent maize per unit amount of water used.Average maize grain yields following S. sesban fallow and in continuous 14 Te Scientifc World Journal maize with and without fertilizer were 3, 6, and 1 mg/ha with corresponding water use efciencies of 4.3, 8.8, and 1.7 kg/ mm/ha, respectively.S. sesban fallow increased the soil water storage in the soil profle and drainage below the maximum crop root zone compared with conventionally tilled nonfertilized maize [94].Many farmers in Eastern Province, Zambia, started using S. sesban to improve fallows in the late 1990s and early 2000s, but the practice declined for a number of reasons including a reduction in extension support and the introduction of fertilizer subsidies [95].
Te details of the use of S. sesban for soil improvement in agriculture and in cropping systems are summarized in Table 5.

Use as Feed for Livestock and as Food for Humans.
Some studies conducted at the University of Queensland in Australia reported that S. sesban has a high nutritive value (28% crude protein) and high dry matter digestibility (86%) [29].Roothaert and Paterson [96] found in Kenya that S. sesban had the highest dry matter digestibility compared to some common fodder tree species such as Leucaen, leucocephala, and Calliandra calothyrsus.S. sesban also had low acid detergent fbre levels and average crude protein content, which gave it a high nutritive value overall.S. sesban's seeds contain 39% protein [97].One hundred gram of dry seeds contained 29−32 g of crude protein, 5-6 g of crude lipid, 16 g of crude fbre, 18-19 g of total starch with 7.2−7.4g of digestible starch, 4.85-5.95g of total phenols, 1.97-2.02g of tannins, 5.05-5.14g of condensed tannins, 2.35−2.37 g of phytate, and 1.26-1.46g of saponins [97].
3.5.1.Feed for Livestock.Numerous studies confrm S. sesban's high feed value.Access to adequate livestock feed is the main constraint limiting livestock productivity in Africa [98].S. sesban is widely used as a feed across the continent, as evidenced in the following examples.In Chad, livestock keepers cut, carry, and feed the leaves to ruminants.Te pods are cut and fed to dairy sheep, goats, and oxen.Leaves and pods are considered high-protein fodder to increase milk productivity (Ousman B. M., 2024) (unpublished).S. sesban is sometimes also cultivated in rotation with sugar cane or alone as a feed for sheep and goats, which consume the leaves and young stems [7].
Many studies have been conducted in East Africa to assess animal production characteristics such as growth rates, milk production levels, and fertility when cattle, sheep, and goats were fed tree fodder such as S. sesban [99], although its uptake has not been as signifcant as that of Calliandra calothyrsus.However, in Uganda, S. sesban is widely grown.In Ethiopia, S. sesban is the most important planted fodder tree and is generally grown in home gardens [34].Smallholders feed it to goats, sheep, and cows.Roothaert and Paterson [96] also reported on a study in which separate groups of local goats with an average initial age and live weight of 8 months and 8.4 kg were allowed to graze daily on the natural ranges for two wet and two dry seasons.Tey were supplemented at night with sun-dried leaves and small twigs of S. sesban.Te mean intake was 76 g•day −1 per head, and the mean daily live weight gain was 24 g•day −1 per head.Mekoya et al. [100] conducted a study in the central highlands of Ethiopia on the efect of the supplementation with S. sesban on the milk yield of sheep.Tey concluded that supplementation of S. sesban at 30% of the ratio (0.98% of their body weight) during lactation improved the milk yield of ewes and the growth rate of lambs compared with supplementation with concentrates.S. sesban thus has the potential of increasing milk and meat production of sheep and can serve as a substitute ratio to commercial concentrates for resource-poor farmers [100].Studies conducted by Peters [101] have shown that the leaves of S. sesban from Ethiopia are highly nutritious as the crude protein content of the leaves is high (25% to 30% of dry matter), and they contain little tannin and other polyphenols.Tey reported that S. sesban is a useful source of protein for ruminant diets and may prove useful to farmers with livestock and the need for improved fodder [101].
3.5.2.Food for Humans.S. sesban is not widely consumed by humans, but Bunma and Balslev [97] reported that there are many uses of S. sesban for human food.Details of the use of S. sesban as feed for livestock and as food for humans are summarized in Table 6.
3.6.Other Uses of S. sesban 3.6.1.As Fuelwood.Fuelwood availability is a key problem throughout Africa and particularly in Chad [102].Robert and Abdel-Hamid [102] reported that some important forest trees (including S. sesban) will continue to be used as fuelwood for quite some time to come in most sub-Saharan cities and the sustainability of supply is questionable.Research conducted by the World Agroforestry Centre [46] found that S. sesban is used in many African countries as a source of fuel and is appreciated because it grows fast, burns well, and can be coppiced.
In western Kenya, Swinkels et al. [103] reported that three-quarters of farmers had S. sesban in their cropped felds (mainly maize) and that 20 percent planted it.Its main use was as fuelwood, but farmers also appreciated its contribution to soil fertility [46].Adelanwa and Tijani [104] in Nigeria and Muimba-Kankolongo [85] reported that the biomass of S. sesban can produce wood within just 3-6 months when grown with Cajanus cajan (leguminous).
3.6.2.Shade or Shelter and Hedge.S. sesban is also used as a shade for humans and their animals, a windbreak, a cover crop, an ornamental plant, and fsh poison and for sticks for construction.It is also used for building huts, making charcoal, and preparing gunpowder [7,15,68] (Ousman B. M., 2024) (unpublished).S. sesban has also grown as a hedge [7].

As Fibre for Ropes and Fishing Nets and as Gum.
S. sesban is used as a fbre for ropes and fshing nets, and the seeds produce gum [46].Cultivated in rotation with cotton to enhance nitrogen fertility and improve soil condition Whole tree [7,81] Rhizobium make them suitable to be used as biofertilizers in unfavourable environmental conditions for legumes cropping Root nodules [92] S. sesban is planted to increase plant cover in desert areas and areas with little vegetation and to enrich soil fertility for increasing yields of crops in sandy soil and in desert areas
Te foliar biomass production of S. sesban allows the production of nutrients nitrogen, phosphorus, calcium, magnesium, and potassium when the species is intercropped with Phaseolus vulgaris L., Sorghum bicolor L., Zea mays L., and

Ipomoea batatas L
Whole tree bark, stems [23,35] S. sesban accessions are used as green manure crops in short fallow and used as sources of organic matter and nitrogen for improvement of poor, nutrient-defcient soils Seeds accessions whole tree [84,86,87] Intercropping sweet potato with S. sesban improves yield of the crop Whole tree [88] Intercropping of S. sesban with rice and annual grasses in semiarid conditions for managing weeds and optimizing the yield of dry-seeded rice Whole tree bark [23,89] Improved fallows and as herbaceous cover crops Whole tree [4,5,5,85] Restore eroded soil by fxing N 2 Whole tree [18,83] S. sesban grows in the salt-afected soils and limits the efect of salinity Whole tree [82,91] 16 Te Scientifc World Journal S. sesban is used for humans' food and their nutrition Seeds [97] Te Scientifc World Journal + and NO 3 − alone or mixed at a range of 0, 0.1, 0.2, 0.5, 2, and 5 mM stimulated the growth of seedlings of S. sesban.Resulting relative growth rates (RGRs) range from 0.19 (RGRs)/day to 0.21 (RGRs)/day.Te authors concluded that these characteristics of S. sesban concerning N nutrition make it a very useful plant as N 2 -fxing fallow crop in N-defcient areas.Tus, S. sesban has a broad ecological amplitude concerning N nutrition, and the wide geographical distribution of this species in subtropical and tropical areas may in part be due to its adaptability to a variety of environmental conditions, including water regime and nutrient availability.S. sesban has great use in tropical and subtropical areas not only as a N 2 -fxing fallow crop in nutrient-defcient areas but also as a recommended species for use in constructed wetland systems for the treatment of NH 4 + -rich waters.
3.6.6.Treating Wastewater in Tropical Areas.Dan et al. [107] evaluated the potential of using S. sesban as an N 2 -fxing plant in constructed wetland systems.S. sesban plants grew well in the vertical fow and horizontal fow systems.Te parameters measured such as root elongation rate, shoot elongation rate, leaf production rate, and biomass production were generally high in the two systems.Te biomass production for the experimental periods was 20.2 and 17.2 kg/m 2 /year for the vertical fow and horizontal fow systems, respectively.Te nitrogen content in S. sesban biomass was relatively high in general.Tey concluded that S. sesban can be used to treat high-strength wastewater in tropical areas, while the species grows well and produces a large amount of nitrogen containing biomass which is used as fodder and for soil amendment [107].

Gas Production and Rumen Degradation
Characteristics. S. sesban leaves have been investigated in vitro and in sacco in rumen fstulated cows fed on a diet of grass hay ad libitum supplemented with cotton seed cake [72].Te results showed that S. sesban' leaves are used for gas production (methane, carbon dioxide) and rumen degradation characteristics, as well as for the growth of S. sesban leaves (in heavy clay vertisols with near neutral to alkaline pH (6)(7)(8)).Tey ofered advantages over herbaceous species in terms of superior persistence, higher dry matter (DM) yields, better resistance to mismanagement, and a capacity to retain high-quality foliage livestock depending on grazing unimproved native under stress conditions.It also provides fertilizer in the pastures and crop residues and can play a role as protein supplements to poor quality forages [72].Details of other uses of S. sesban discussed in this section are summarized in Table 7.

Conclusion
S. sesban is a leguminous tree native to Chad used to increase crop yields and vegetation in some desert areas.Te local population and particularly pastoralists plant it in arid zones to increase the plant cover, to obtain shade for humans and their animals, and to use its wood for construction.Te local population also uses S. sesban to enrich soil fertility for increasing yields of crops such as rice, maize, and sorghum.Te species is also used also as a medicinal plant to treat breast cancer, wounds, and edema.However, some important problems exist which threaten S. sesban and other leguminous trees in Chad.Van der Plas and Abdel-Hamid [102] pointed out that around cities such as N'djamena , the high demand for fuelwood threatens the sustainability of supply.Tey also explained that this demand for fuelwood does not need to be a problem; if supplies are made available, then woodfuel can also be an engine of economic growth, particularly in rural areas.
Land degradation, the decline of soil fertility and carbon stocks, and reduced availability of fuelwood and livestock feed are key problems in Chad as well as throughout Africa.Nwilo et al. [108] noted that vegetation in northern Nigeria including the region of Lake Chad declined by 49.3% between 1984 and 2016.Te causes included agricultural activities such as extensive grazing and annual cropping, deforestation, and variations in climate.Excessive exploitation poses risks to the conservation of the whole fora in these and other tropical and subtropical regions [109,110].Moreover, efective strategies for biodiversity conservation should focus on regions with rare and endangered species, on locally abundant species that are functionally vital in maintaining the plant community, and on regions with considerable heterogeneity of vegetation [110].Rukangira [109] noted that policy makers, other stakeholders, and citizens need to support conservation and help increase awareness of the problem.Te collection of plant material and documentation, botanical identifcation, and preparation of herbarium vouchers are tasks that cannot be automated and thus require specialists who are becoming increasingly rare [111,112].As reported by Mosier et al. [113], restoring soil fertility on degraded lands to meet food, fuel, and climate security requires perennial cropping systems using perennial vegetation and thus can simultaneously provide additional ecosystem services.Tese alternative combinations of ecosystem services are climate change mitigation (bioenergy cropping systems), animal protein production (intensive rotational grazing), and biodiversity restoration (conservation plantings).

Te Scientifc World Journal
Finally, this review study demonstrates that S. sesban has considerable potential for addressing problems such as land degradation, decline of soil fertility and carbon stocks, and reduced availability of fuelwood and livestock feed as well as for improving human and livestock health and treating diseases.Various phytochemical constituents with essential metabolites and drugs can be extracted from diferent parts of S. sesban including the leaves, bark, stem, fower, roots, and seedpods.S. sesban also has important uses in particular niches, such as on saline soils, constructed wetlands, and for phytoextraction of metals.Tis study contributes to the knowledge base on S. sesban and will hopefully help in its protection, use, and value for future generations.Although the plant grows naturally in and around N'djamena , it has become rare and needs to be replanted in order to avoid its complete disappearance in the future.
°from the previous one and forming a cone that gradually closes (Figures 4(b) and 4(c)) [14, 39].Tese leaves are oddpinnate with one pair of leafets at the base having large, irregularly lobed terminal leafets (Figures 4(b) and 4(c)).Te fowers are yellow and are arranged in clusters forming from 2 to 20 fowers and almost 20 cm long.Te flament sheath is 9-13 mm and yellow-purple speckled and, in rare cases, is pure yellow (Figures 4(b) and 4(c))

Figure 1 :
Figure 1: Te botanical mission carried out on S. sesban in the Lake Chad area by Léonard in 1968 [19].

Table 4 :
Ethnomedicinal use of S. sesban, plant part used, dosage regimen, and mode of preparation.oil were applied to the body Apply to the body until cure Te retention of urine of cattle (cows, goats,

Table 2 :
Medicinal use, biological activity, plant parts used, dosage regimen, and its corresponding concentrations and active constituents of S. sesban.

Table 3 :
S. sesban: phytochemical compounds, parts used for extraction, and their extraction solvent.

Table 5 :
Use of S. sesban for soil improvement in agriculture and in cropping systems.

Table 6 :
Use of S. sesban as feed for livestock and as food for humans.

Table 7 :
[105] uses of S. sesban.Enhancing Phytoextraction of Heavy Metals from Soil.Gupta et al.[105]found that S. sesban may enhance the phytoextraction of heavy metals such as cadmium (Cd), lead (Pb), and zinc (Zn) from artifcially contaminated soil by application of ethylene di-amine tetra-acetic acid (EDTA).