Monthly Changes in Quality of Calligonum comosum Grazing Plant and an Estimate of the Maximum Values of Forage Quality by Using the Polynomial Quadratic Equation | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Journal of the Advances in Agricultural Researches | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Article 2, Volume 25, Issue 4 - Serial Number 97, December 2020, Page 379-388 PDF (496.22 K) | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Document Type: Research papers | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
DOI: 10.21608/jalexu.2020.171967 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
View on SCiNiTO | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Author | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Mohamed Elzara | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Department of Environmental and Natural Resources, College of Agricultural and Food Sciences, King Faisal University | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Abstract | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Follow up the monthly changes of plant quality on Calligonum comosum plant which natural grown in the Research and Training Station of King Faisal University, Al-Hassa, Saudi Arabia in season from September/2019 to May/2020 AD were recorded. The results revealed that a significance differences between values of all months. The polynomial quadratic equation indicated that the higher values % of crude protein (Cd, 9.80%), dry matter weight (DW, 40.21%), ash (Ash, 14.71%), crude fiber (CF, 43.19%), acid detergent fiber (ADF, 32.6%), and dry matter digestibility (DMD, 60.52%) were found between December and February | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Keywords | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Calligonum comosum; Grazing plant, Forage quality, Acid detergent fiber, Polynomial quadratic equation, Alahsa, Kingdom of Saudi Arabia | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Full Text | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
INTRODUCTION In the desert areas of the Kingdom of Saudi Arabia many desert plants are spread as source of feed for wild animals such as camels and livestock. One of these desert plants is Calligonum comosum (Shaltout et al., 1996; Al-Rowaily, 1999; Alzarah, 2020). The Using of desert wild plants as a fodder source for grazing animals reduces the costs of importing fodder and saving water consumption (Alzarah, 2020). The natural rangeland in desert dry regions is considered as a source of livestock nutrition (Bidgoli, 2018). The quality of rangeland production varied from time to time, place to place, and species to species, and also by environmental factors (Dongmei et al., 2005). Wild plants that live in the desert contain food stuffs in addition to their content of various plant compounds that may benefit animals that live in the desert and can be used as feed materials for these animals. The quality of rangelands forage species and determination of rangeland grazing capacity to proper management of rangelands and the establishment of a sustainable balance between livestock and rangeland are very important (Arzani et al., 2009; Kaboli, 2001). The CP, DMD and ME are the appropriative factors for assessing the forage quality (Arzani et al., 2009; Kaboli, 2001). From between the several components in forage, ADF is important one as indicator of forage quality in different plant species (Graber, 1991). Oddy et al. (1993) concluded that the CP rate in plants in the vegetative stage was higher than the flowering and seed maturity stages; also, Larbi et al. (2010) showed that the amount of DMD and ME decreased with increasing plant age. Consequently, Bidgoli (2018) concluded that when plant growth is complete, the number of structural carbohydrates in the plant and the ADF percent are more likely to increase while the CP concentration decreases. Hyder and Sneva (2003) mentioned that forage quality can be used to determine the best time of livestock grazing. Calligonum comosum is one of the Polygonaceae families that grow as a resistant to drought and dehydration in difficult desert conditions. This plant has good distribution in different arid and semi-arid climatic conditions, particularly sandy hills, and very widespread. That plant is distributed in sandy soils of Saudi Arabia such as eastern (Shaltout et al., 1996; Alzarah, 2020), western (Migahid, 1978), northern (Migahid, 1978), southern (Migahid, 1978), and central (AlRowaily, et al., 2018) provinces of the Kingdom. Calligonum comosum L'Her is a large perennial bush found in any climatic region in scrub and waste of desert zone. This plant inhabits and grows in much the desert sands of the North African, the Middle East, as well as the sand dunes in both central and eastern Arabia (Lipscombe Vincent, 1984). This species belongs to the Polygonaceae family and is characterized by a tall, evergreen shrub that can reach 3 m in length but is typically found in a 1 to 2 m tall bush. The stem of the plant is woody hard with white to grayish-white color. Their nodes are swollen. The bush looks as leafless, hard, widely branched plant, but young branches are green and thin with very small caduceus leaves (Chaudhary, 1999). In the early spring months (March and April) the stiff, young green branches produce an abundance of flowers. The pedicels of the flowers are as long as or longer than the perianth. The hairy fruits, which are yellowish-green, yellow, or even shades of red, follow the silvery-white sweet-smelling little blooms (Chaudhary, 1999). The fruits are covered by long hairs that arising from four vertical wing-like narrow ridges. The plant has a long taproot, which enables the plant to collect sand and used as a dune stabilizer (Zoghet and Al-Alsheikh, 1999). Vegetative period of this plant begins from March, and the emergence of leafy leaves extends to mid-April, its tiny and white flowers begin to form in late March and by the end of May and give a very sophisticated landscape to the faces of the sandstones. Fruits appear in June and the height of the plant varies between 1 to 3 m (Batooli, 2011). Knowledge of the nature of the forages of this species is an efficient way to use them in a timely fashion, expecting food scarcity and needs for livestock dietary supplementation. Bedouins use this plant a lot; in winter, they use the woody stem as firewood. The long and far-reaching roots make it a strong sand stabilizer and the sand in broad hummocks is always heaped around it. (Lipscombe Vincent, 1984). It is used in hedges, ground cover, landscaping, and windbreaks. Its new flowers can be consumed, as it is rich in sugar and nitrogenous components (Surviva-Appendix B, 2002). The plant has been used to treat stomach ailments by local healers while the stems and leaves are chewed for curing toothache (Liu et al., 2001). The result of boiling the roots are used in the sores of gums treatment (Zoghet and Al-Alsheikh, 1999). Calligonum plant has economic, environmental and medicinal importance (Okla et al., 2014). Calligonum plant can be used in purification of polluted water for Zn where Ackacha (2010) in his study on the stem of Calligonum comosum indicated that the plant absorbed some heavy elements like zinc and reduces significantly its presence in the aqueous solution. Inorganic compounds and minerals are required in all living systems for normal life-supporting processes. In addition, minerals are found in all animal tissues and feedstuffs in widely varying quantities and proportions. Unlike other nutrients, living organisms do not synthesize minerals; thus, if survival and development goals are to be maintained, animals must obtain sufficient quantities of necessary elements from their environment (Khan et al., 2012). Livestock typically derives most of their dietary nutrients from the feed they consume, although it is possible to acquire substantial amounts of minerals from water, soil intake, and contamination of feed. Feed sources of minerals are typically divided into base feedstuffs (e.g., range or pasture plants, harvested forages, concentrates) and mineral supplements (Khan et al., 2012). While, Dost (2001) indicated that a detailed understanding of the supply and availability of mineral nutrients in traditional feedstuffs involves efforts to reduce the cost of mineral supplementation in livestock production. For sustainability and reducing dependence on importing fodder from abroad or cultivating varieties that consume water with limited resources. It is necessary to search and find natural resources such as wild plants that exist in the desert environment of the Kingdom of Saudi Arabia that can live in harsh conditions from high temperatures, lack and quality of water (Alzarah, 2020). There is a wide gap between the nutritional needs of animal feed and the quantities produced in Saudi Arabia. Therefore, large quantities of feed are imported to reduce the gap between production and consumption. Seasonal variation influences seasonal livestock production in different regions of the world by influencing the accumulation of forage dry matter. Seasonal forage mineral nutrient content stability can be achieved through active breeding programs for forage plants (Mislevy et al., 1999). It has been widely known that the available energy and protein of the feed is of primary importance to any animal, but optimum efficiency can only be achieved if there is a sufficient supply of minerals (Khan et al., 2004; McDowell, 1985). The pastures are the main source of minerals, and only rarely the forage of pastures fully fulfill all the mineral requirements of livestock (Jones and Tracy, 2013). For all of these economical uses, the plant has been faced with over grazing and unorganized rural activities that led to the extinction of it. For this and because of the little available information about that species especially its taxonomical plasticity under the arid conditions which it faces and as a step forward to know the ways its internal and external features adapted to the environmental stress, this work has been done (Wafaa, et al., 2006). Wafaa et al. (2006) in study on Calligonum comosum L`Her in two desert Locations in Saudi Arabia, Nefoud El-Shakika and the second west El-Dahnaa, showed that great variations within the plant especially plant length and width and minerals content between the two different regions. The hints referred to by Taia and El-Olayan (2003) confirm the findings of Wafaa et al. (2006) that the morphological and mineralogical differences of the Calligonum comosum L`Her plant differ according to the growing habitats. To maximize the benefits of wild plants such as Calligonum comosum that grows in the eastern part of the Eastern Province of Saudi Arabia as animal feed, so this study aims to follow the monthly changes of forage quality and determine the time that gives the maximum quality using the polynomial equation.
MATERIAL AND METHOD: 2.1 Experimental design Randomized complete block design with three replications (5 plants/replicate) were used in this experiment where aerial sampling monthly time of plant was considered (9 months: September, October, November, December, January, February, March, April and May). The total units of the experiments were (3 replicates × 9 months = 27 units)
2.2 Collection, preparation and analysis of plant samples The samples of Calligonum comosum plants were collected from three different locations as replications inside Research and Training Station of King Faisal University. The Meteorological conditions through two years are summarized in Table 1. From each site five plants were selected monthly almost similar in morphological shape to conduct the test on them. The plant samples were taken through November / 2019 to May 2020 from aboveground growth (aerial parts). The samples were washed with distilled water, dried, crushed, sieved and analyzed according to AOAC methods (2019) for determination of crude protein (CP%= Total nitrogen%*6.25), crude fiber (CF), acid detergent Fiber (ADF), dry matter digestibility (DMD), total energy (TE), metabolic energy (ME) and ash % . The DMD and ME were calculated by the following equations according to Van Soest et al. (1991)
To measure the ADF content of the plants, 1 g of the powdered sample was placed into glass tubes in the Fiber tec. Then, 100 ml ADS (Acid Detergent Solution) was added and boiled for 1 h. For preparation of the ADS, 20 g BrNH4(CH3)3 (try methyl bromide) was combined with 10 ml of conc. H2SO4. After 1 h, all the substances in the solution will be vanished, except the cellulose, lignin, and the minerals. The samples were then washed with distilled water and acetone in the cold extraction unit, and then put in the oven at 120oC for 2 hours. Afterwards, the sample weights were recorded (Wb), and the samples were put in an electric furnace at 500°C for 3 h. In the electric furnace, all of the sample’s cellulose and lignin were burnt and only the minerals were remained. Then the sample will be weighted (Wa). By comparing the weights of the samples before and after the electric furnace, the ADF was obtained using the following formula
Where Wb and Wa are the weight of the sample before and after the electric furnace
2.3 Calculation Polynomial quadratic equation were used to predicate DW, Ash, CF, N, ADF, DMD and ME as forage quality of Calligonum comosum wild plant: Yi = B0 + B1Xi + B2Xi2 Where the Yi is the expected characteristics of quality corresponding to monthly changes, B0 is the intercept, B1 and B2 are the linear and quadratic coefficients, respectively. The maximum rate (Mmax) was calculated when the slope (dy/dxi) of polynomial equation equals zero. The corresponding maximum characters were calculated by substituting the value of Mmax in the polynomial quadratic equation.
2.4 Statistical Analysis Data obtained were subjected to statistical analysis of variance (ANOVA) for randomized complete block design by SAS computer program. Treatment means were compared using LSD test as described by Snedecor and Cochran (1998).
2.5 Climatic conditions in studied area The study area was the Research and Training Station of King Faisal University located in Eastern province of Saudi Arabia. Table 1 showed that the average annual rainfall in the region was 0-7 (in 2019) 0-3.8 mm day-1(in 2020) and air temperature ranged between 6.68-48.6 and 2.2-42.37°C in 2019 and 2020, respectively. The air speed varied from 0-13.56 (in 2019) and 0-14.21 m S-1 (in 2020).
Table 1: The minimum, maximum and average of some climatic conditions in the Research and Training Station of King Faisal University, Kingdom of Saudi Arabia from March 2019 to May 2020.
The data were recorded from Meteorological station, research and training station, King Faisal University, Al-Hassa King Kingdom of Saudi Arabia.
3. RESULTS AND DISCUSSION Forage Quality: Monthly changes of forage quality comprised of DW, Ash, CF, N, ADF, DMD and ME were recorded. The averages of forage quality characteristics mean will be elucidated as follow. 3.1 Analysis of variance of the forage quality Analysis of variance of the monthly changes of forage quality characteristics are presented in Table (2). Results illustrated that highly significant changes were found between months for DW, DMD and ME (P<0.001) and Ash, CF, N, and ADF, pCalligonum comosum in three phonological growth stages (vegetative, flowering and seedling) where he showed significant effect of phonological stages on CP and TE (P <0.01) and DMD and ME (p<0.05).
Table 2: Analysis of variance of dry weight % (DW%), ash %, crude fiber% (CF%), crude protein (CP), acid detergent fiber (ADF), dry matter digestibility (DMD), total energy (TE) and metabolic energy (ME) in Calligonum comosum through November/2019 to April/2020.
*** and **** mean significant at 0.001 and 0.0001 probabilities levels.
3.2 The monthly Change of DW, Ash, CF, N, ADF, DMD and ME The following Table (3) showed the effect of monthly differences of DW, Ash, CF, N, ADF, DMD and ME of Calligonum comosum plant. The obtained results revealed that the characters of DW, Ash, CF, N, ADF, DMD and ME were significantly affected by monthly sampling time i.e. September, October, November and December of 2019 and January, February, March, April, May of 2020. Concerning DW%, the highest value (42.69%) was obtained at February, while the lowest value (18.78%) was at the month of May (Table 3). The high ash% value (15.47%) was produced in February, whereas the lowest ash value% (6.81%) was produced in May. Higher CF% (27.84%) was recorded in February, while the lowest CF% (12.25%) was in May. The higher values for DW, Ash and CF were logged between December and February with no significant differences between its values in these months. The highest CP% (19.9%) was obtained at March, while the lowest (9.64%) was in May. This results were consistent with the results of Bidgoli (2018) where he found in his study on forage quality of Calligonum comosum in Iran, that CP% decreased with increasing the growth age stages from vegetative to flowering and then to seed maturity. Regarding ADF, the data of Table 3 revealed that ADF increased monthly from September / 2019 to February / 2020 and then decreased thereafter to the month May / 2020. However, higher ADF value was achieved at February (38.97%) and lower value (15.93%) was achieved at May. Bidgoli (2018) indicated that ADF values ranged from 19.1 to 23.6% of Calligonum comosum. The values of ADF increased monthly up to February and then decreased to May. The DMD values ranged from 54.90 at February to 71.64 at May. As general DMD results showed that, DMD decreased monthly up to February and then increased monthly afterward . As shown in Table 3, the lowest ME value was in February (7.33) and the highest value was in May (10.18). The results indicated that the values of DW, Ash, CF, N and ADF take the same direction while the values recorded for DMD and ME take the same trend but are opposite to the other parameters. These results are in line with those of Khan et al. (2012) in his study of the same plant in Pakistan.
Table 3: Forage quality monthly changes (DW%, Ash, CF, N, ADF, DMD and ME) of Calligonum comosum wild plant
*Any two means not sharing the same letter in common in a column differ significantly at 5% level of probability.
Fig. 1: Monthly changes of some forage quality properties of Calligonum comosum wild plant (DW%, Ash%, CF%, CP%, ADF, DMD and ME). Polynomial quadric equation for y every characters are appeared in the figures.
3.3The maximum ADF as forage quality, CF, CP, and Ash of Calligonum comosum wild plant by using polynomial quadratic equation
The polynomial quadratic equations were used to express the characters change (Yi) through the months (Mi) (September / 2019 to May / 2020) under the conditions of the experiment area are illustrated in Table 3. Data in Table 3 designated significant determination coefficients of CF, Ash (p<0.01) and CP (p<0.05) characters of forage quality with months with no significant value for ADF. Which means that CF, Ash and CP depends mainly on month while ADF is not correlated with the time of sampling (month). Undersander et. al (2019) mentioned that lower ADF indicates a more digestible forage, and ADF values less than 35% are desirable for an alfalfa forage. Whereas ADF can be an indicator of the energy content of a forage and is used in digestibility calculations. Acid Detergent Lignin (ADL) analysis can be performed sequentially on ADF residue.
Table 4: The maximum value (Yi) and time of maximum in month of CF, CP, Ash and ADF by using polynomial quadratic equations
Mi is the number of month starting from November 2019 to May 2020 NS, *, ** are not significant, significant at p
3.4 Comparison between Calligonum comosum wild plant and alfalfa as forage for desert animals Alfalfa is a premier forage legume with potential for high yield and quality so this plant is taken as stander for forage quality (Lacefield, 2004) to compare with the quality of Calligonum comosum. The data of table 5 demonstrate the comparison of CP, ash, CF and ADF maximum contents of Calligonum comosum wild plant and alfalfa hay as forage guide line. The presented data showed that the maximum value of CP% of wild plant was 16.81%, while the content in alfalfa leaf was ranged between 16 to 26%. This result means that the CP% value of Calligonum comosum wild plant is close to alfalfa CP values. In addition to CP% of Calligonum comosum plant takes the Fair grade according to Putnam and Undersander (2019) for alfalfa hay. Regarding Ash% in Calligonum comosum wild plant and alfalfa leaves were 14.70 and 6-15% respectively, however CF% values were higher in Calligonum comosum wild plant than the in alfalfa hay as optimum value (11.8-12%). Concerning ADF% the of Calligonum comosum wild plant (24.62%) was lower than the value of alfalfa (<27-35) where the ADF grade for forage quality is supreme when the value is less than 20% according to Putnam and Undersander (2019) and Stivers et al (1983).
Table 5: The comparison of CP, ash, CF, ADF, DW, DMD and ME maximum contents between Calligonum comosum wild plant and alfalfa hay as forage.
4. CONCLUSION The Calligonum comosum plant is one of the wild plants widely spread in the Kingdom of Saudi Arabia, especially in the Eastern Province. This plant can survive in difficult desert conditions. This plant grows under desert stress such as lack of water, fertilization and high temperatures during growth periods. The components change monthly in the plant body, which affects its quality as feed for wild animals. The results showed that this plant can be used as fodder for the months of January and March, as the values of crude protein are high. From the results of the data obtained we can conclude that Calligonum comosum wild plant which grow in difficult stress conditions can be used as forage for wild animals such as Kamal, goats and sheep in desert. This plant grows grow under desert stress due to lack of water, fertilization and high temperatures between months during growth periods. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
References | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
A.O.A.C.(2019). Official methods of analysis of the Association of official Analytical Chemists. 21st Edition.
Ackacha, M. A. (2010). Removal of Zn(II) Ions from Aqueous Solution by New Adsorbent: Calligonum comosum. Int. J. Chem. Env. Engin. 1(1): 210-218.
Al-Rowaily, S. R., A. M. Assaeed, S. A. Al-Khateeb, A. A. Al-Qarawi, F. S. Al Arifi. (2018). Vegetation and condition of arid rangeland ecosystem in Central Saudi Arabia. Saudi Journal of Biological Sciences. 25(6):1022-1026.Al-Rowaily, S. L. (1999). Rangeland of Saudi Arabia and the “tragedy of commons” Rangelands. 21(na): 27-29.
Alzarah, M. I. (2020). Elemental composition of grazing plant species in the Eastern Province of the Kingdom of Saudi Arabia. Journal of Meteorology, Environment and Arid land Agriculture. 29(1): 35-50.
Arzani, H., M. Sadeghi manesh, H. Azarnivand, Q. Asadian, E. Shahriari. (2009). Effect of phenological stage on forage quality of twelve rangeland species in Hamedan province. Jour Rangeland and Desert Research of Iran. 15(1): 42-50.
Batooli, H. (2011). Study of phenology and effects of plant productions in some rangeland's species of Kashan. J. Rangeland and Desert Research of Iran. 11(2): 23-31.
Bidgoli, R. D. (2018). Forage quality of Calligonum comosum in three phonological growth stages (Case study: Kashan Rangelands, Iran). J. Rangeland Science. 8 (3): 309-314.
Chaudhary, A. C. (1999). Flora of the Kingdom of Saudi Arabia. Illustrated. 1: 304-320.
Dongmei., X., C. Weixian, G. Sigia, X. Xiangyun. (2005). Studies on feeding value for five psammophyte shrub in Ningxin region. Proceedings of the XIX International Grassland Congress, Feb18- 24, Sao Paulo, Brazil. 155-165. Fonnesbeck, A. and Davidson, L., 1985.
Dost, M. (2001). Fodder success story-improved fodder crop production in the Northern Areas of Pakistan. Integrated Crop Management Vol. 4, AGPC/ FAO, p. 23.
Graber, L. (1991). Food reserves in relation to other factors limiting the growth of grasses. J. Plant Physiology. 6 (na):43-71.
Hyder, D., A. Sneva, (2003). Morphological and physiological factors affecting the grazing management of crested wheatgrass. J. Crop Sciences. 23(na): 267-271.
Jones, G. B., B. F. Tracy. (2013). Evaluating seasonal variation in mineral concentration of cool-season pasture herbage. Grass and Forage Science. 70 (1):94-101.
Kaboli, S. H. (2001). Introduction of indices for determining forage quality in some rangeland species. MSc Thesis, University of Tehran. 120pp.
Khan, Z. I., K. Ahmad, M. Danish, F. Mirzael. (2012). Minerals profile of forages for grazing ruminants in Pakistan. Open J. of Animal Sciences. 2(3):133-141.
Khan, Z.I., A. Hussain, M. Ashraf, E. E. Valeem, M. S. Akhtar. (2004). Seasonal variation in soil and forage mineral concentrations in a semiarid region of Pakistan. Pakistan J. of Botany. 36(na):635-640.
Lacefield, G. D. (2004). Alfalfa quality: what is it? What can we do about it? And, will it pay Proceedings, National Alfalfa Symposium, 13-15 December 2004, San Diego, CA, UC Cooperative Extension, University of California, Davis 95616. http://alfalfa.ucdavis.edu.
Larbi, A., Abd, A., Moneim, E., Nakkoula, H., B. Jammalb, S. Hassana. (2010). Interspecies variations in yield and quality in Lathyrus species: 1. Grasspea (L. sativus L.). Animal Feed Science and Technology, 161(na): 9–18.
Lipscombe-Vincent, B.A. (1984). Golden Days in the Desert: Wild Flowers of Saudi Arabia. IMMEL Publishing, Italy, pp: 168-169.
Liu, X. M, M.N.M. Zakaria, M. W. Islam, R. Radhakrishnan, A. Ismail, H.B. Chen, K. Chan, A. Al-Attas. (2001). Anti-inflammatory and anti-ulcer activity of Calligonum comosum in rats. J. Fitoterapia, 72: 487-491.
McDowell, L.R. (1985). Nutrition of grazing ruminants in warm climates. Academic Press, New York, 443.
Migahid, A.M. (1978). Flora of Saudi Arabia. Riyadh University Publication, Riyadh.
Mislevy, P., T. Sinclair, J. D. Ray. (1999). Improving forage productivity during late fall and early winter by making grass less sensitive to short days. Agronomy Department Bulletin, No. 748, Department of Agronomy, University of Florida, Gainesville.
Oddy, V., S. Robards, S. Low. (1993). Prediction of in vivo dry matter digestibility from the fiber and nitrogen content of a feed. Jour Food Science, 50(5): 113-119.
Okla, M. K., A. A. Alatar, A. K. Hegazy, A. Rady. (2014). Biological Activity of Calligonum comosum extracts as antibacterial and antioxidant. J. of Pure & Applied Microbiology. 8(na):529-534.
Putnam, D. and D. Undersander. (2014). The future of alfalfa forage quality testing in hay markets. Web source: https://www.researchgate.net/publication/238098267
Shaltout, K.H., E. F. Elhalawany, H. F. Elkady. (1996). Consequences of protection from grazing on diversity and abundance of the coastal lowland vegetation in Eastern Saudi Arabia. J. of Biodiversity and Conservation, 5: 27-36.
Snedecor, G.W. and W.G. Cochran. (1989). Statistical Methods. 8th Edition, Iowa State University Press, Ames.
Stivers, J., B. R. Moss L. Welty. (1983). “New trends in forage analysis.” MSU Research Report 202:61-70.
Survival-Appendix, B., (2002). Edible and medicinal plants. http://www.aircav.com/survival/appb/asappb01.html.
Taia, W. K., H. A. El-Olayan. (2003). Effect of habitats on the phenotypic characters of three wild species in El-Riyadh city. Biosci. Res. Bull. 19(na): 171-177.
Undersander, D., M. Renz, , and C. Sheaffer. (2019). Alfalfa Management Guide. American Society of Agronomy. American Society of Agronomy, Inc. 2011. Available online: https://www.agronomy.org/files/publications/alfalfa-management-guide.pdf (accessed on 12 December 2019).11.
Van Soest, P. J, J. B. Robertson, B. A. Lewis. (1991). Methods for dietary fibre, neutral detergent fibre and non-starch polysaccharides in relation to animal nutrition. J. Dairy Science 74:3583-3597.
Wafaa K. T., O. M. El-Etaby , (2006). Taxonomical Study in the desert plant Calligonum comosum L`Her from two different locations in Saudi Arabia. Asian J. of Plant Sciences. 5(na): 570-579.
Zoghet, M. F., A. Al-Alsheikh, (1999). Wild plants in the region of Riyadh. King Saud University Press, Riyadh, Saudi Arabia, pp: 194-195. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Statistics Article View: 225 PDF Download: 374 |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||