Effect of conditioning training on blood-gas indexes in 2,000 m trot race in Yili horses

doi:10.6048/j.issn.1001-4330.2024.03.027

Xinjiang Agricultural Sciences ›› 2024, Vol. 61 ›› Issue (3): 757-765.DOI: 10.6048/j.issn.1001-4330.2024.03.027

• Animal Husbandry Veterinarian·Agricultural Eeconomy • Previous Articles Next Articles

Effect of conditioning training on blood-gas indexes in 2,000 m trot race in Yili horses

YANG Liping¹(), WANG Chuankun¹, SHANG Tingting¹, ZENG Yaqi¹^,²^,³, WANG Jianwen¹^,²^,³, NUO Lufu⁴, MA Kangwei⁵, YAO Xinkui¹^,²^,³, MENG Jun¹^,²^,³()

1. College of Animal Science,Xinjiang Agricultural University,Urumqi 830052,China
2. Horse Industry Research Institute,Xinjiang Agricultural University,Urumqi 830052,China
3. Xinjiang Key Laboratory of Horse Breeding and Sports Physiology,Urumqi 830052,China
4. Xinjiang Zhaosu Horse Farm,Zhaosu Xinjiang 835602,China
5. Zhaosu County Western Equine Industry Co,Zhaosu Xinjiang 835600,China

Received:2023-08-01 Online:2024-03-20 Published:2024-04-19
Correspondence author: MENG Jun(1986-),male,from Yancheng,Jiangsu,professor,research interests in animal production,(E-mail)junm86@qq.com
Supported by:
Natural Science Foundation of Xinjiang Uygur Autonomous Region(2021D01B50);Major Science and Technology Special Project of Xinjiang Uygur Autonomous Region(2022A02013-1)

调教训练对伊犁马2 000 m速步赛血气指标的影响

杨利平¹(), 王川坤¹, 尚婷婷¹, 曾亚琦¹^,²^,³, 王建文¹^,²^,³, 诺鲁甫⁴, 马康伟⁵, 姚新奎¹^,²^,³, 孟军¹^,²^,³()

1.新疆农业大学动物科学学院,乌鲁木齐 830052
2.新疆农业大学马产业研究院,乌鲁木齐 830052
3.新疆马繁育与运动生理重点实验室,乌鲁木齐 830052
4.新疆昭苏马场,新疆昭苏 835602
5.昭苏县西域马业有限责任公司,新疆昭苏 835600

通讯作者: 孟军(1986- ),男,江苏盐城人,教授,硕士生/博士生导师,研究方向为动物生产学,(E-mail)junm86@qq.com
作者简介:杨利平(1997-),女,新疆奎屯人,硕士研究生,研究方向为动物生产学,(E-mail)2292115202@qq.com
基金资助:
新疆维吾尔自治区自然科学基金项目(2021D01B50);新疆维吾尔自治区重大科技专项(2022A02013-1)

Abstract

Abstract:

【Objective】 The purpose of this paper is to study the effect of conditioning training on the blood gas indexes of 2,000 m trot race horses in Yili and to provide data reference for the development of scientific conditioning training programs.【Methods】 Twelve healthy Yili horses(2 years old) without special trot training were selected for special trot training for a period of 12 weeks,and a trotter was organized 4 weeks during the training period to record the race results.【Results】 The competition performance of the horses in the middle and post training periods was extremely significantly lower(P<0.01) than that in the early training period those in the excellent and regular groups.pH was significantly lower(P<0.05) in the middle training period than that in the early training period.Lactic acid(Lac) in middle training was highly significant higher than that in early training(P<0.01).Na⁺ middle training was highly significant lower than those in early and post training period(P<0.01).Ca²⁺ post training was highly significant lower than that in early training(P<0.01) and significantly lower than that in middle training(P<0.05).Cl^- post training was significantly lower than that in early training(P<0.05) and middle training was highly significant lower than that in the early training period(P<0.01).Anion gap(AG) was significantly higher than those in late training and in the beginning of training(P<0.05).Glucose(Glu) was highly significantly higher in late training than those in early training and middle training(P<0.01).Creatinine(Crea) was highly significantly higher in middle training than that in the beginning of training and post training(P<0.01).【Conclusion】 The performance,acid-base balance capacity,gas exchange capacity and glucose supply capacity of 2,000 m Yili horses trotter are significantly improved after conditioning training under the present experimental conditions.It is recommended to maintain the ionic level of the organism during training with appropriate electrolyte supplementation.Therefore,blood-gas indexes can be used as a health monitoring tool in equine sports training.

Key words: conditioning raining; Yili horses; trot; blood-gas indexes

摘要：

【目的】 研究调教训练对伊犁马2 000 m速步赛血气指标的影响,为制定科学调教训练方案提供数据参考。【方法】 选取未经专项速步赛调教训练的健康伊犁马(2岁)12匹,进行为期12周的速步专项训练,训练期间每4周组织一次速步测试赛,记录比赛成绩,并采集马匹赛前、赛后即刻、赛后30 min及赛后60 min的血液测定血气指标。【结果】 优秀组和普通组马匹训练中期和训练后期的比赛用时极显著低于训练前期(P<0.01)。pH训练中期显著低于训练前期(P<0.05)。乳酸(lactic acid,Lac)训练中期极显著高于训练前期(P<0.01)。Na⁺训练中期极显著低于训练前期和后期(P<0.01)。Ca²⁺训练后期极显著低于训练前期(P<0.01),显著低于训练训练中期(P<0.05)。Cl^-训练后期显著低于训练前期(P<0.05),训练中期极显著低于训练前期(P<0.01)。阴离子间隙(anion gap,AG)训练后期显著高于训练前期(P<0.05)。血糖(glucose,Glu)训练后期极显著高于训练前期和训练中期(P<0.01)。肌酐(creatinine,Crea)训练中期极显著高于训练前期和训练后期(P<0.01)。【结论】 调教训练后2 000 m伊犁马速步赛的成绩、酸碱平衡能力、气体交换能力及葡萄糖供应能力均显著提高。在训练过程中,适当补充电解质来维持机体离子水平。血气指标可以作为马匹运动训练中的健康监测手段。

关键词: 调教训练, 伊犁马, 速步赛, 血气指标

CLC Number:

S821

YANG Liping, WANG Chuankun, SHANG Tingting, ZENG Yaqi, WANG Jianwen, NUO Lufu, MA Kangwei, YAO Xinkui, MENG Jun. Effect of conditioning training on blood-gas indexes in 2,000 m trot race in Yili horses[J]. Xinjiang Agricultural Sciences, 2024, 61(3): 757-765.

杨利平, 王川坤, 尚婷婷, 曾亚琦, 王建文, 诺鲁甫, 马康伟, 姚新奎, 孟军. 调教训练对伊犁马2 000 m速步赛血气指标的影响[J]. 新疆农业科学, 2024, 61(3): 757-765.

Figures/Tables 6

Tab.1 Quickstep Specific Conditioning Training Programme

阶段 Stage	时间 Times	训练方案 Training programmes
训练前期 Pre-training	第1周	完成马匹亲和训练
	第2周	单缰调教圈训练20 min/d:左右里怀各10 min
	第3周	单缰调教圈训练20 min/d:左右里怀各10 min后,进行备鞍训练
	第4周	双缰调教圈训练30 min/d:左右里怀各15 min
训练中期 Mid-training	第5周	双缰调教圈训练40 min/d:备鞍左右里怀各20 min
	第6周	在调教圈上马,进行左右里怀各5 min的热身后,进行草地慢步训练
	第7周	在调教圈上马,进行左右里怀各5 min的热身后,进行草地线路训练,每种线路各15 min
	第8周	在调教圈上马,进行左右里怀各5 min的热身后,进行沙地慢步训练, 正反各一圈后,进行沙地线路训练
训练后期 Post-training	第9周	在调教圈上马,进行左右里怀各5 min的热身后,进行跑道训练,慢步2 000 m
	第10周	在调教圈上马,进行左右里怀各5 min的热身后,进行跑道训练,慢步2 000 m,快步1 000 m
	第11~12周	在调教圈上马,进行左右里怀各5 min的热身后,进行跑道训练,慢步2 000 m,快步2 000 m

Tab.2 Variation in race performance of horses at different stages of training(s)

项目 Items		训练前期 Pre-training	训练中期 Mid-training	训练后期 Post-training
成绩(s) Speed scores	优秀组	367.87±46.91^Aa	302.85±29.02^Bb**	281.28±15.47^Bb**
成绩(s) Speed scores	普通组	370.22±22.16^Aa	334.05±21.73^Bb	305.36±9.49^Bc

Tab.3 Changes in indicators of acid-base balance in the blood of horses at different stages of training

指标 Index	训练阶段 Training Stage			标准差 SEM	P值 P value
指标 Index	训练前期 Pre- training	训练中期 Mid- training	训练后期 Post- training	标准差 SEM	训练阶段 Training stages	性能 Performance	采样时间 Sampling time	训练阶段×性能 Training stages× Performance	训练阶段× 采样时间 Training stages× Sampling time
pH	7.440^a	7.410^b	7.420^ab	0.010	0.031	0.117	0.000	0.436	0.045
HC $O_{3}^{-}$ (mmol/L)	25.880	25.100	25.070	0.470	0.386	0.067	0.000	0.401	0.125
Beecf (mmol/L)	1.720	0.440	0.620	0.590	0.253	0.077	0.000	0.390	0.089
BEb (mmol/L)	1.720	0.410	0.650	0.540	0.192	0.073	0.000	0.389	0.077
Lac (mmol/L)	1.510^Bb	4.350^Aa	3.250^ABa	0.540	0.001	0.024	0.000	0.459	0.085

Tab.3 Changes in indicators of acid-base balance in the blood of horses at different stages of training

指标 Index	训练阶段 Training Stage			标准差 SEM	P值 P value
指标 Index	训练前期 Pre- training	训练中期 Mid- training	训练后期 Post- training	标准差 SEM	训练阶段 Training stages	性能 Performance	采样时间 Sampling time	训练阶段×性能 Training stages× Performance	训练阶段× 采样时间 Training stages× Sampling time
pH	7.440^a	7.410^b	7.420^ab	0.010	0.031	0.117	0.000	0.436	0.045
HC $O_{3}^{-}$ (mmol/L)	25.880	25.100	25.070	0.470	0.386	0.067	0.000	0.401	0.125
Beecf (mmol/L)	1.720	0.440	0.620	0.590	0.253	0.077	0.000	0.390	0.089
BEb (mmol/L)	1.720	0.410	0.650	0.540	0.192	0.073	0.000	0.389	0.077
Lac (mmol/L)	1.510^Bb	4.350^Aa	3.250^ABa	0.540	0.001	0.024	0.000	0.459	0.085

Tab.4 Changes in blood gas balance indicators of horses at different stages of training

指标 Index	训练阶段 Training Stage			标准差 SEM	P值 P value
指标 Index	训练前期 Pre- training	训练中期 Mid- training	训练后期 Post- training	标准差 SEM	训练阶段 Training stages	性能 Performance	采样时间 Sampling time	训练阶段×性能 Training stages× Performance	训练阶段× 采样时间 Training stages× Sampling time
PCO₂ (mmHg)	38.190	38.970	38.370	0.480	0.492	0.192	0.000	0.406	0.498
PO₂ (mmHg)	40.040	42.350	42.040	0.890	0.142	0.663	0.027	0.040	0.705
TCO₂ (mmol/L)	27.050	26.290	26.100	0.480	0.332	0.050	0.000	0.443	0.131
SO₂ (%)	76.270	77.290	77.710	1.070	0.622	0.144	0.624	0.070	0.737

Tab.5 Changes in ion balance indicators in the blood of horses at different stages of training(mmol/L)

指标 Index	训练阶段 Training Stage			标准差 SEM	P值 P value
指标 Index	训练前期 Pre- training	训练中期 Mid- training	训练后期 Post- training	标准差 SEM	训练阶段 Training stages	性能 Performance	采样时间 Sampling time	训练阶段×性能 Training stages× Performance	训练阶段× 采样时间 Training stages× Sampling time
Na⁺	137.310^Aa	134.560^Bb	137.380^Aa	0.400	0.000	0.209	0.154	0.992	0.000
K⁺	3.720	3.540	3.580	0.060	0.099	0.059	0.013	0.101	0.001
Ca²⁺	1.620^Aa	1.580^ABa	1.540^Bb	0.010	0.000	0.828	0.000	0.784	0.014
Cl^-	99.660^Aa	96.560^Bb	97.970^ABb	0.510	0.000	0.888	0.408	0.726	0.231
AG	15.310^b	16.160^ab	17.660^a	0.610	0.028	0.814	0.000	0.833	0.003

Tab.6 Changes in Hct,Hgb,Glu and Crea in the blood of horses at different stages of training

指标 Index	训练阶段 Training Stage			标准差 SEM	P值 P value
指标 Index	训练前期 Pre- training	训练中期 Mid- training	训练后期 Post- training	标准差 SEM	训练阶段 Training stages	性能 Performance	采样时间 Sampling time	训练阶段×性能 Training stages× Performance	训练阶段× 采样时间 Training stages× Sampling time
Hct (%)	33.690	34.840	33.470	0.630	0.254	0.098	0.000	0.204	0.509
Hgb (g/dL)	11.450	11.820	11.330	0.210	0.240	0.098	0.000	0.180	0.545
Glu (mg/dL)	110.190^Bb	113.720^Bb	131.470^Aa	3.880	0.000	0.978	0.000	0.118	0.128
Crea (mg/dL)	0.840^Aa	0.680^Bb	0.810^Aa	0.020	0.000	0.221	0.001	0.402	0.000

References 43

[1]	全国马产业发展规划(2020-2025年)[J]. 新疆畜牧业,2020, 35(6):4-10.
	National Equine Industry Development Plan(2020-2025year)[J]. Animal husbandry in Xinjiang, 2020, 35(6):4-10.
[2]	王建文, 姚新奎, 李林玲, 等. 不同运动对伊犁马血气指标的影响[J]. 中国兽医学报, 2020, 40(12):2374-2379.
	WANG Jianwen, YAO Xinkui, LI Linling, et al. Effects of different exercise on blood-gas indexes in Yili horse[J]. Chinese Journal of Veterinary Science, 2020, 40(12):2374-2379.
[3]	李海, 黄新新, 李倩, 等. 不同精料补充料对伊犁马1 000 m速度赛成绩及血液生化指标的影响[J]. 中国畜牧杂志, 2021, 57(9):191-196.
	LI Hai, HUANG Xinxin, LI Qian, et al. Effect of different concentrate supplements on 1 000 m speed races performance and blood biochemical parameters of Yili horse[J]. Chinese Journal of Animal Science, 2021, 57(9):191-196.
[4]	Arfuso F, Giannetto C, Fazio F, et al. Training program intensity induces an acute phase response in clinically healthy horses[J]. Journal of equine veterinary science, 2020, 88:102986. DOI URL
[5]	Alshuwaier G O, Ghazzawi H A, Alaqia A I, et al. The effect of intensity soccer training sessions on marked biochemical indicators of blood acidity of Saudi young soccer players[J]. Open Access Journal of Sports Medicine, 2022, 13:17-23. DOI PMID
[6]	Arfuso F, Giannetto C, Giudice E, et al. Venous blood acid-base status in show jumper horses subjected to different physical exercises[J]. Journal of Equine Veterinary Science, 2020, 94:103251. DOI URL
[7]	Casella S, Alberghina D, Giannetto C, et al. Responses to training and standardised exercise test in the athlete horse:changes in blood gas profile[J]. Comparative Clinical Pathology, 2012, 21(5):611-614. DOI URL
[8]	李闻捷, 惠小阳, 徐玉莲, 等. 高强度有氧及无氧训练对运动员机体生化指标的综合影响[J]. 现代临床医学生物工程学杂志, 2005, 11(4):273-276.
	LI Wenjie, HUI Xiaoyang, XU Yulian, et al. Effect of High Strength Aerobic and Anaerobic Training on the Biochemical Parameters of Athletes[J]. Journal of Modern Clinical Medical Bioengi-neering, 2005,(4):273-276.
[9]	李苗苗, 罗炯, 张庭然, 等. 骨质代谢与运动训练:骨重塑与骨细胞增殖[J]. 中国组织工程研究, 2019, 23(34):5544-5549.
	LI Miaomiao, LUO Jiong, ZHANG Tingran, et al. Bone metabolism and exercise training:bone remodeling and osteoblast proliferation[J]. Chinese Journal of Tissue Engineering Research, 2019, 23(34):5544-5549.
[10]	杨琴, 赵玉明, 黄妍, 等. 外周动脉疾病患者运动训练的最佳证据总结[J]. 中华护理杂志, 2022, 57(21):2661-2668.
	YANG Qin, ZHAO Yuming, HUANG Yan, et al. Summary of the best evidence for exercise training in patients with peripheral artery disease[J]. Chinese Journal of Nursing, 2022, 57(21):2661-2668.
[11]	李斐. 复合力量训练对不同水平跑者骨骼肌肉机能、跑步经济性和耐力运动成绩的影响研究[D]. 上海: 上海体育学院, 2019.
	LI Fei. Effects of Complex training on Musculoskeletal Fitness,Running Economy and Endurance Performance in Distance Runners[D]. Shanghai: Shanghai University Sport, 2019.
[12]	任绮. 不同方式的急性运动和慢性运动对自由基代谢的影响[J]. 体育科学, 2004, 24(4):22-25,50.
	REN Qi. Effect of Different Patterns of Acute and Chronic Exercise on Free Radicals Metabolism[J]. China Sport Science, 2004, 24(4):22-25,50.
[13]	吴鑫龙, 邓珊珊. 竞走项目高原训练的研究综述[C]// 第七届中国多巴高原训练与健康国际研讨会暨第四届高原科学与可持续发展分论坛论文摘要集. 2022:149-150.
	WU Xinlong, DENG Shanshan. Research summary of Altitude training of race walking event[C]// The 7^th China Duoba Altitude Training and Health International Forum on Altitude Sciences and Sustainable Development, 2022:149-150.
[14]	罗鹏辉. 不同负重训练对伊犁马血气、心率、呼吸频率及成绩的影响[D]. 乌鲁木齐: 新疆农业大学, 2015.
	LUO Penghui. The Effect of Different Weight Training on Blood Gas,Heart Rate,Respiratory Rate and performance of Yili Horse[D]. Urumqi: Xinjiang Agricultural University, 2015.
[15]	刘运飞. 初级耐力训练对伊犁马血液生化指标及其运动成绩影响的初步研究[D]. 乌鲁木齐: 新疆农业大学, 2014.
	LIU Yunfei. A Primary Study on Yili Horse the Blood Biochemical Indexes and Athletic Performance by Primary Endurance Training[D]. Urumqi: Xinjiang Agricultural University, 2014.
[16]	Huggins R A, Fortunati A R, Curtis R M, et al. Monitoring blood biomarkers and training load throughout a collegiate soccer season[J]. The Journal of Strength & Conditioning Research, 2019, 33(11):3065-3077.
[17]	赵宇. 二氧化碳浓度对蛋鸡生产性能、血液生化指标、营养物质代谢的影响[D]. 保定: 河北农业大学, 2018.
	ZHAO Yu. Effects of carbon dioxide concentration on the production performance,blood biochemical indexes and nutrient metabolism of laying hens[D]. Baoding: Hebei Agricultural University, 2018.
[18]	张月, 姚新奎, 孟军, 等. 不同热身程度对伊犁马1 000 m速度赛后各阶段血气指标的影响[J]. 新疆农业科学, 2021, 58(6):1160-1167. DOI
	ZHANG Yue, YAO Xinkui, MENG Jun, et al. The Influence of Different Warm-up Degrees on the Blood Gas Indexes of Yili Horse at Each Stage after 1,000 m Speed Race[J]. Xinjiang Agricultural Sciences, 2021, 58(6):1160-1167. DOI
[19]	Poškiené I, Juozaitiené V, Gruodyté R, et al. The effect of 60 km endurance exercise on serum electrolytes and acid-base balance in the Žemaitukai horses[J]. Acta Veterinaria Brno, 2020, 89(2):125-131. DOI URL
[20]	屠焰, 邱国梁, 周怿, 等. 液体饲料pH值对荷斯坦公犊血气指标的调控[J]. 中国农业科学, 2014, 47(17):3465-3474. DOI
	TU Yan, QIU Guoliang, ZHOU Yi, et al. The Regulation of pH Value of Liquid Feed on Blood Gas Parameters in Holstein Bull Calves[J]. Scientia Agricultura Sinica, 2014, 47(17):3465-3474. DOI
[21]	Paneroni M, Simonelli C, Saleri M, et al. Short-Term effects of normocapnic hyperpnea and exercise training in patients with chronic obstructive pulmonary disease:a pilot study[J]. American Journal of Physical Medicine & Rehabilitation, 2018, 97(12):866-872.
[22]	许冬明, 李显国, 刘超. 不同时间的慢跑运动对大学生血乳酸、肌酐及相关指标的影响[J]. 中国应用生理学杂志, 2016, 2(5):400-402.
	XU Dongming, LI Xianguo, LIU Chao. Effects of different time jogging on blood lactate,creatinine and related indexes of college students[J]. Chinese Journal of Applied Physiology, 2016, 2(5):400-402.
[23]	Kirsch K, Sandersen C. Traditional and quantitative analysis of acid-base and electrolyte imbalances in horses competing in cross-country competitions at 2-star to 5-star level[J]. Journal of Veterinary Internal Medicine, 2020, 34(2):909-921. DOI PMID
[24]	刘莉如, 汪宇, 张丹, 等. 北京地区围产期荷斯坦牛血气指标分析[J]. 中国奶牛, 2017,(11):20-24.
	LIU Liru, WANG Yu, ZHANG Dan, et al. Analysis of Blood Gas Indexes of Perinatal Holstein Dairy Cows in Beijing Area[J]. China Dairy Cattle, 2017,(11):20-24.
[25]	Hoppel F, Calabria E, Pesta D, et al. Physiological and pathophysiological responses to ultramarathon running in non-elite runners[J]. Front Physiol, 2019,(10):1300.
[26]	Linhares J M, Di Filippo P A, Bogossian D M, et al. Physical exercise on serum electrolytes and acid base balance in Mangalarga Marchador horses submitted to cavalcade of 4,8 and 20km[J]. Ciência Rural, 2017, 47(5):e20160277.
[27]	段媛媛, 李成, 刘辉, 等. 某部士兵高温高强度军事训练对血清生化指标的影响及其意义[J]. 武警医学, 2021, 32(6):461-463,467.
	DUAN Yuanyuan, LI Cheng, LIU Hui, et al. Effect of high-temperature and high-intensity military training on serum biochemical indexes of soldiers[J]. Medical Journal of the Chinese People's Armed Police Force, 2021, 32(6):461-463,467.
[28]	孙雪, 裴淑桥, 郝丽荣. 不同钙离子浓度透析液对单次血液透析钙平衡的影响[J]. 临床肾脏病杂志, 2016, 16(5):271-276.
	SUN Xue, PEI Shuqiao, HAO Lirong. Effects of different dialysate calcium concentrations on calcium mass balance during hemodialysis[J]. Journal of Clinical Nephrology, 2016, 16(5):271-276.
[29]	王宁. 间歇训练法对速步马无氧代谢能力影响的初步研究[D]. 乌鲁木齐: 新疆农业大学, 2015.
	WANG Ning. Preliminary Study on the Effect of the Intermittent Training Method of Trotter’s Anaerobic Capacity[D]. Urumqi: Xinjiang Agricultural University, 2015.
[30]	Kupczyński R, Špitalniak K. Analysis of acid-base balance as well as hematological and biochemical parameters in horses of combined driving discipline[J]. Archives Animal Breeding, 2015, 58(1):221-228. DOI URL
[31]	孙日鹏, 王禾林. 中长跑运动员高原训练前后有氧代谢能力变化的监测分析[J]. 辽宁体育科技, 2022, 44(6):74-78,124.
	SUN Ripeng, WANG Helin. Monitoring and analysis of aerobic metabolismcapacity changes of middle and long distance runners before and after altitude training[J]. Liaoning Sport Science and Technology, 2022, 44(6):74-78,124.
[32]	Padalino B, Frate A, Tateo A, et al. Valutazione dello stato di preparazione atletica del cavallo trottatore su pista dritta mediante determinazione del lattato,del valore ematocrito e di alcuni parametri fisiologici[J]. Ippologia, 2005, 16(1):31-33.
[33]	Voss B, Mohr E, Krzywanek H. Effects of aqua-treadmill exercise on selected blood parameters and on heart‐rate variability of horses[J]. Journal of Veterinary Medicine Series A, 2002, 49(3):137-143. DOI URL
[34]	Boffi FM. Fisiología del ejercicio en equinos[M]. Buenos Aires: InterMédica, 2007,123-132.
[35]	何丹丹. 不同方式急性运动对糖代谢指标动态变化的影响[D]. 苏州: 苏州大学, 2017.
	HE Dandan. Effects of acute exercise on the dynamic changes of glucose metabolism index in different ways[D]. Suzhou: Soochow University, 2017.
[36]	沈袁龙. 不同运动方式对Ⅱ型糖尿病患者血糖控制作用及适用性的网状Meta分析[D]. 济南: 山东师范大学, 2022.
	SHEN Yuanlong. A Network Meta-analysis for the Effects and Acceptability of Different Exercise Modes on Glycemic Control in Type Ⅱ Diabetes Mellitus[D]. Jinan: Shandong Normal University, 2022.
[37]	徐驰, 廖晶晶, 熊莉, 等. 血肌酐在重竞技类项目机能评定中的应用[J]. 山东体育科技, 2018, 40(4):71-76.
	XU Chi, LIAO Jingjing, XIONG Li, et al. Application of serum creatinine in physical function assessment of heavy athletics[J]. Shandong Sports Science & Technology, 2018, 40(4):71-76.
[38]	Martins L P, DiFilippo P A, Meireles M A D, et al. Effect of marcha exercise on Serum electrolytes and acid-base balance in mangalarga marchador horses[J]. Journal of Equine Veterinary Science, 2017, 49:108-112. DOI URL
[39]	Hoffman R M, Hess T M, Williams C A, et al. Speed associated with plasma pH,oxygen content,total protein and urea in an 80 km race[J]. Equine Veterinary Journal Supplement, 2002, 34(34):39-43. DOI URL
[40]	赵之光, 程金娜, 魏文哲, 等. 加压训练和传统增肌训练对优秀男子手球运动员部分激素及生物活性因子的影响[J]. 中国体育科技, 2019, 55(5):20-29.
	ZHAO Zhiguang, CHENG Jinna, WEI Wenzhe, et al. KAATSU Training and Traditional Muscle Hypertrophy Training on Some Hormones and Bioactive Factors of Elite Male Handball Players[J]. China Sport Science and Technology, 2019, 55(5):20-29.
[41]	Chan O, Inouye K, Riddell M C, et al. Diabetes and the hypothalamo-pituitary-adrenal(HPA) axis[J]. Minerva Endocrinologica, 2003, 28(2):87-102. PMID
[42]	Hilton N P, Morris A R, Walshaw M J, et al. The use of serum creatinine to estimate skeletal muscle mass in cystic fibrosis[J]. Journal of Cystic Fibrosis, 2015, 14:S40.
[43]	Joy J M, Vogel R M, Moon J R, et al. Twelve weeks supplementation with an extended-release caffeine and ATP-enhancing supplement may improve body composition without affecting hematology in resistance-trained men[J]. Journal of the International Society of Sports Nutrition, 2016, 13(1):25. DOI URL

Effect of conditioning training on blood-gas indexes in 2,000 m trot race in Yili horses

调教训练对伊犁马2 000 m速步赛血气指标的影响

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