METRO-15 METRO 2033 “√∫—≠ ”π” ”π— æ‘¡æå 6 ”π”ºŸâ·ª≈ 7 1 Õ« “π‚≈ 11 2 Œ—π‡μÕ√å 42 3 ∂â“©—π‰¡à ...
Õπÿ√—°…å¥‘π¿“¬„π¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å...
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°“√®—¥°“√·≈–°“√Õπÿ√—°…å¥‘π¿“¬„π¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å ‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ®—ßÀ«—¥ ÿ√“…Æ√å∏“π’ ÿ™“µ‘ ‡™‘ß∑Õß 1 Abstract Choengthong, S. Soil management and conservation in the Prince of Songkla University, Surat Thani Campus, Surat Thani Province Songklanakarin J. Sci. Technol., 2007, 29(1) : 133-144 The purposes of this study were to analyze soil properties and to find out a suitable soil conservation method for soil management in Surat Thani campus,Prince of Songkla University.Land in the area was divided into plots depending on different land use. Soil samples were collected from each plot and were analyzed for soil properties. The results from soil analysis revealed that soils in Surat Thani campus had pH between 4.53 - 7.62. The quantitative levels of soil total N, available P and exchangeable K were low. Also the quantitative levels of Ca, Mg and S were low. Moreover, the quantitative levels of organic matter were low between 4.6-9.9 gkg -1 . There was no salty effect as the electrical conductivities (EC) were low between 6.8 - 26.4 µS/cm. Further- more, the cation exchange capacities (CEC) were low, between 1.65 - 2.78 cmol c kg -1 . In conclusion, soil in Surat Thani campus, Prince of Songkla University, had soil nutrients lower than those needed for plant growth and development. Therefore, there is a need for application of fertilizer to obtain good plant growth. Soil conservation experiment was done by studying soil loss from a control plot (no cover crop) compared with the ones growing Peuraria phaseoloides , Wedelia trilobata and Vetiveria zizanioides. The results 1 Ph.D. (Forestry), Õ“®“√¬å “¢“«‘™“Õÿµ “À°√√¡™’«¿“æ §≥–‡∑§‚π‚≈¬’·≈–°“√®—¥°“√ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å ‡¢µ°“√- »÷°…“ ÿ√“…Æ√å∏“π’ Õ”‡¿Õ‡¡◊Õß ®—ßÀ«—¥ ÿ√“…Æ√å∏“π’ 84100 Corresponding e-mail: [email protected] √—∫µâπ©∫—∫ 8 情¿“§¡ 2549 √—∫≈ßæ‘¡æå 12 °√°Æ“§¡ 2549 π‘æπ∏åµâπ©∫—∫
Transcript of Õπÿ√—°…å¥‘π¿“¬„π¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å...
°“√®—¥°“√·≈–°“√Õπÿ√—°…å¥‘π¿“¬„π¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å
‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ®—ßÀ«—¥ ÿ√“…Æ√å∏“π’
ÿ™“µ‘ ‡™‘ß∑Õß 1
AbstractChoengthong, S.
Soil management and conservation in the Prince of Songkla University, Surat
Thani Campus, Surat Thani ProvinceSongklanakarin J. Sci. Technol., 2007, 29(1) : 133-144
The purposes of this study were to analyze soil properties and to find out a suitable soil conservation
method for soil management in Surat Thani campus,Prince of Songkla University.Land in the area was divided
into plots depending on different land use. Soil samples were collected from each plot and were analyzed for
soil properties. The results from soil analysis revealed that soils in Surat Thani campus had pH between 4.53
- 7.62. The quantitative levels of soil total N, available P and exchangeable K were low. Also the quantitative
levels of Ca, Mg and S were low. Moreover, the quantitative levels of organic matter were low between 4.6-9.9
gkg-1. There was no salty effect as the electrical conductivities (EC) were low between 6.8 - 26.4 µµµµµS/cm. Further-
more, the cation exchange capacities (CEC) were low, between 1.65 - 2.78 cmolckg-1 . In conclusion, soil in
Surat Thani campus, Prince of Songkla University, had soil nutrients lower than those needed for plant
growth and development. Therefore, there is a need for application of fertilizer to obtain good plant growth.
Soil conservation experiment was done by studying soil loss from a control plot (no cover crop)
compared with the ones growing Peuraria phaseoloides , Wedelia trilobata and Vetiveria zizanioides. The results
1Ph.D. (Forestry), Õ“®“√¬å “¢“«‘™“Õÿµ “À°√√¡™’«¿“æ §≥–‡∑§‚π‚≈¬’·≈–°“√®—¥°“√ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å ‡¢µ°“√-
»÷°…“ ÿ√“…Æ√å∏“π’ Õ”‡¿Õ‡¡◊Õß ®—ßÀ«—¥ ÿ√“…Æ√å∏“π’ 84100
Corresponding e-mail: [email protected]
√—∫µâπ©∫—∫ 8 情¿“§¡ 2549 √—∫≈ßæ‘¡æå 12 °√°Æ“§¡ 2549
π‘æπ∏åµâπ©∫—∫
Songklanakarin J. Sci. Technol.
Vol.29 No.1 Jan. - Feb. 2007 134
Soil management and conservation in PSU, Surat Thani Campus
Choengthong, S.
revealed that Peuraria phaseoloides was suitable to grow as cover crop for controlling soil erosion.
Peurariacould reduce soil loss up to 87% compared to those with bare soil. Wedelia trilobata(Creeping daisy)
and Vetiveria zizanioides could reduce soil loss about 55% and 30 % respectively. In order to reduce soil
leaching that can be as high as 38 kg from an area of only 8 m2, soil protection method by growing Peurariaphaseoloides, or Weddelia trilobata on sloping and bare land are highly recommended.
∫∑§—¥¬àÕ
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«. ߢ≈“π§√‘π∑√å «∑∑. 2550 29(1) : 133-144
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„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å ‚¥¬∑”°“√®”·π°æ◊Èπ∑’Ë·µà≈–·ª≈ßµ“¡°“√„™âª√–‚¬™πå
∑’˵à“ß°—π ·≈â«∑”°“√‡°Á∫µ—«Õ¬à“ߥ‘π®“°·µà≈–·ª≈߉ª«‘‡§√“–Àå ¡∫—µ‘¢Õߥ‘π æ∫«à“ ¥‘π à«π„À≠à‡ªìπ¥‘π√à«πªπ∑√“¬
¡’√–¥—∫§«“¡‡ªìπ°√¥¥à“ßÕ¬Ÿà√–À«à“ß 4.53 ∂÷ß 7.62 ‡ªìπ¥‘π∑’Ë¢“¥∏“µÿÕ“À“√À≈—° (N, P ·≈– K) ”À√—∫°“√‡®√‘≠
‡µ‘∫‚µ¢Õßæ◊™„π‡°◊Õ∫∑ÿ°æ◊Èπ∑’Ë·≈–ª√‘¡“≥∏“µÿÕ“À“√√Õß (Ca, Mg, ·≈– S) Õ¬Ÿà„π√–¥—∫µË”°«à“¡“µ√∞“𠥑π
∑—ÈßÀ¡¥¡’ª√‘¡“≥Õ‘π∑√’¬«—µ∂ÿ∑’˵˔լŸà√–À«à“ß 4.6-9.9 gkg-1 §à“π”‰øøÑ“µË”Õ¬Ÿà√–À«à“ß 6.8-26.4 µS/cm ®÷߉¡à¡’ªí≠À“
¥â“𧫓¡‡§Á¡ πÕ°®“°π’餈Ҥ«“¡®ÿ„π°“√·≈°‡ª≈’Ë¬π·§µ‰ÕÕÕπ¡’§à“µË”¡“°‡æ’¬ß 1.65-2.78 cmolckg
-1 √ÿª‰¥â«à“¥‘π
„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“𒇪ìπ¥‘π∑’Ë¡’ª√‘¡“≥∏“µÿÕ“À“√∑’Ë®”‡ªìπµàÕ°“√‡µ‘∫‚µ¢Õßæ◊™µË”°«à“¡“µ√∞“π ®”‡ªìπµâÕß
‡æ‘Ë¡∏“µÿÕ“À“√‚¥¬°“√„™âªÿܬ‡æ◊ËÕ„Àâæ◊™‡®√‘≠‡µ‘∫‚µ¥’
”À√—∫°“√∑¥≈Õß≈¥°“√™–≈â“ߢÕߥ‘π ‚¥¬„™â·ª≈ß∑’ˉ¡à‰¥âª≈Ÿ°æ◊™§≈ÿ¡‡ªìπ·ª≈ߧ«∫§ÿ¡‡ª√’¬∫‡∑’¬∫°—∫
·ª≈ß∑’˪≈Ÿ°∂—Ë«‡æÕ√å√“‡√’¬ µâπ°√–¥ÿ¡∑Õß ·≈–À≠â“·Ω° æ∫«à“ ∂—Ë«‡æÕ√å√“‡√’¬¡’§«“¡ “¡“√∂„π°“√≈¥°“√™–≈â“ß
‰¥â¥’∑’Ë ÿ¥ “¡“√∂≈¥°“√™–≈â“ߢÕߥ‘π‰¥â∂÷ß 87% ‡¡◊ËÕ‡ª√’¬∫‡∑’¬∫°—∫·ª≈ߧ«∫§ÿ¡ „π¢≥–∑’Ë°√–¥ÿ¡∑Õß·≈–À≠â“·Ω°
¡’§«“¡ “¡“√∂„π°“√≈¥°“√™–≈â“ߢÕßÀπâ“¥‘π‰¥â 55% ·≈– 30%µ“¡≈”¥—∫‡ª√’¬∫‡∑’¬∫°—∫·ª≈ߧ«∫§ÿ¡ ¥—ßπ—Èπ
‡æ◊ËÕ≈¥°“√™–≈â“ߥ‘π´÷Ëß Ÿß∂÷ß 38 °°./ªï ®“°æ◊Èπ∑’Ë‡æ’¬ß 8 µ√.‡¡µ√ (·ª≈ߧ«∫§ÿ¡) ®”‡ªìπµâÕߪ≈Ÿ°∂—Ë«‡æÕ√å√“‡√’¬
À√◊Õ°√–¥ÿ¡∑Õß„πæ◊Èπ∑’Ë«à“߇ª≈à“·≈–≈“¥™—π
¥‘π„π‡¢µ√âÕπ™◊Èπ (tropical soils) ‡™à𠥑πÕ—π¥—∫Õ—≈∑‘´Õ≈ å (Ultisols) ·Õ≈øî´Õ≈ å (Alfisols) ·≈–™π‘¥Õ◊ËπʵâÕß°“√°“√®—¥°“√‡ªìπ摇»… ‡π◊ËÕß®“°‡ªìπ¥‘π∑’Ë¡’§ÿ≥ ¡∫—µ‘‡©æ“–∑’ËÕ“® àߺ≈°√–∑∫„π∑“ß≈∫‰¥â Õ“∑‘‡™à𠥑πÕ—π¥—∫Õ—≈∑‘ Õ≈ å ¡’ª√‘¡“≥∏“µÿÕ“À“√µË”·≈–¡’§«“¡‡ªìπæ‘…¢ÕßÕ–≈Ÿ¡‘‡π’¬¡·≈–‡°‘¥°“√°√àÕπ (erosion) ‰¥âßà“¬‚¥¬‡©æ“–„πæ◊Èπ∑’Ë‚≈à߇µ’¬π‰¡à¡’æ◊™æ√√≥ª°§≈ÿ¡ ¥‘πÕ—π¥—∫·Õ≈øî´Õ≈ å ¡’ªí≠À“„π‡√◊ËÕߢÕß°“√¢“¥·§≈π∏“µÿÕ“À“√
À≈“¬™π‘¥·≈–‰¡à∑π∑“πµàÕ°“√∫¥¬Ë” Õ—¥ ™–≈â“ß ‡¡◊ËÕºπ«°‡¢â“°—∫ª√‘¡“≥Ωπ∑’˵°™ÿ°·≈–Àπ“·πàπ ∑”„Àâ¥‘π‡¢µ√âÕπ™◊Èπ‡°‘¥°“√‡ª≈’ˬπ·ª≈ß‚§√ß √â“ß∑’Ë®–‡√àß°“√‡°‘¥°“√°√àÕπ ÷ËßÕ“®‡°‘¥¢÷Èπ‰¥â·¡â„πæ◊Èπ∑’Ë∑’Ë¡’§«“¡≈“¥™—π‡æ’¬ß‡≈Á°πâÕ¬ (Juo, 1981)
‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ¡À“«‘∑¬“≈—¬ ߢ≈“-π§√‘π∑√å ¡’æ◊Èπ∑’˪√–¡“≥ 440 ‰√à µ—ÈßÕ¬Ÿà∑’ËÀ¡Ÿà∑’Ë 6 µ”∫≈¡–¢“¡‡µ’Ȭ Õ”‡¿Õ‡¡◊Õß ®—ßÀ«—¥ ÿ√“…Æ√å∏“π’ „πÕ¥’µ‡ªìπ
Key words: soil analysis, soil conservation, Surat Thani campus, cover crops.
Department of Bio-industrial, Faculty of Technology and Management, Prince of Songkla University, Surat
Thani Campus, Surat Thani, 84100 Thailand.
«. ߢ≈“π§√‘π∑√å «∑∑.
ªï∑’Ë 29 ©∫—∫∑’Ë 1 ¡.§.
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°.æ. 2550 °“√®—¥°“√·≈–°“√Õπÿ√—°…å¥‘π¿“¬„π ¡.Õ. ‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’
135 ÿ™“µ‘ ‡™‘ß∑Õß
ªÉ“‡¢“∑à“‡æ™√ ‡ªìπ∑’Ë¥‘πªÉ“ ß«π·Ààß™“µ‘ ·≈–¡’≈—°…≥–æ◊Èπ∑’ˇªìπ∑’Ë≈“¥‡™‘߇¢“ §«“¡≈“¥™—π‡©≈’ˬª√–¡“≥ 2-16 %
¥‘π‡ªìπ¥‘π·¥ß∑’Ë¡’‚§√ß √â“ßÀ≈«¡ (loosed soil) ª√–°Õ∫°—∫æ◊Èπ∑’˵—È߇¢µ°“√»÷°…“¡’ª√‘¡“≥Ωπ™ÿ° ¡’Ωπµ°‡©≈’ˬ1653.9 ¡¡./ªï ( ∂“π’Õÿµÿπ‘¬¡«‘∑¬“ ÿ√“…Æ√å∏“π’, 2549)
∑”„À⇰‘¥°“√ Ÿ≠‡ ’¬Àπâ“¥‘π·≈–∏“µÿÕ“À“√„π¥‘π‰¥âßà“¬πÕ°®“°π’È„π√–À«à“ß°“√°àÕ √â“ßÕ“§“√µà“ßÊ ¿“¬„π‡¢µ-°“√»÷°…“‰¥â¡’°“√‚§àπ≈⡵âπ‰¡â «π¬“ßæ“√“ «π‰¡âº≈·≈–¡’°“√‡ª≈’ˬπ°“√„™â∑’Ë¥‘π‰ª‡ªìπ∂ππ ∑“߇∑â“ ·ª≈߉¡âª√–¥—∫‰¡â¬◊πµâπ∫“ß™π‘¥ π“¡À≠â“ ´÷Ëß°“√‡ª≈’ˬπ°“√„™â∑’Ë¥‘ππ’È àߺ≈°√–∑∫µàÕ√–∫∫𑇫»¢Õߥ‘π·≈–§«“¡Õÿ¥¡ ¡∫Ÿ√≥å¢Õߥ‘π‡ªìπÕ¬à“ß¡“° ®“°√“¬ß“π ”√«®¥‘π (°Õß ”√«®·≈–®”·π°¥‘π, 2530) æ∫«à“¥‘π à«π„À≠à„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ‡ªìπ¥‘π∑’Ë¡’‡π◊ÈÕ¥‘π‡ªìπ¥‘π√à«πªπ∑√“¬¡’°“√√–∫“¬πÈ”¥’∂÷ß¡“°‡°‘π‰ª ¡’§«“¡ “¡“√∂„ÀâπÈ”´÷¡ºà“π‰¥â¡’°“√‰À≈∫à“ (runoff) ¢ÕßπÈ”∫πº‘«¥‘π‡√Á«¡’·√à∏“µÿÕ“À“√µ“¡∏√√¡™“µ‘µË” ¥—ßπ—Èπ‡¡◊ËÕ¡’Ωπµ°®–‡°‘¥°“√ Ÿ≠‡ ’¬¥‘π‰¥â Ÿß¡“° ‚¥¬‡©æ“–‡¡◊ËÕæ◊Èπ∑’Ë¡’§«“¡≈“¥™—π¡“°°«à“ 12 %
(Daniels and Hammer, 1994) „π°√≥’∑’Ë¡’Ωπµ°Àπ—°®–°àÕ„À⇰‘¥°“√ Ÿ≠‡ ’¬∏“µÿÕ“À“√®“°¥‘π∫π ÷Ëߪ√‘¡“≥πÈ”Ωπ„π‡¥◊Õπµÿ≈“§¡·≈–惻®‘°“¬π Ÿß∂÷ß 300 ¡¡./‡¥◊Õπ( ∂“π’Õÿµÿπ‘¬¡«‘∑¬“ ÿ√“…Æ√å∏“π’, 2549) ∑”„Àâ∏“µÿÕ“À“√´÷Ëß‚¥¬∏√√¡™“µ‘¡’πâÕ¬Õ¬Ÿà·≈â«¡’‚Õ°“ ∂Ÿ°πȔ日擉ª¡“°¬‘Ëߢ÷Èπ °“√®—¥°“√∑√—欓°√¥‘π∑’ˇÀ¡“– ¡°—∫ ¿“ææ◊Èπ∑’Ë·≈– ¿“楑π¢Õ߇¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ®–™à«¬√—°…“§«“¡Õÿ¥¡ ¡∫Ÿ√≥å¢Õߥ‘π ≈¥°“√™–≈â“ߺ‘«Àπâ“¢Õߥ‘πªí®®ÿ∫—πæ∫«à“æ◊Èπ∑’Ë¿“¬„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’¡’°“√‰À≈∫à“¢ÕßπȔլà“ß¡“° ·≈–‰¥âæ—¥æ“Àπâ“¥‘π‰ª∑—∫∂¡„πæ◊Èπ∑’˵˔ §Ÿ√–∫“¬πÈ” ≈”√“ß “∏“√≥Ÿª‚¿§ àߺ≈„Àâ ‘Èπ‡ª≈◊Õßß∫ª√–¡“≥„π°“√¢ÿ¥≈Õ°·≈–´àÕ¡·´¡ °“√®—¥°“√¥‘π∑’ˉ¥âº≈¥’Õ¬à“ßÀπ÷Ëߧ◊Õ°“√«“ß·ºπ°“√„™â∑’Ë¥‘π (land use plan-
ning) „Àâ¡’°“√„™â∑’Ë¥‘πµ“¡ ¡√√∂π–¢Õß∑’Ë¥‘π (land capabi-
lity) ∂◊Õ‡ªìπ°“√„™â∑’Ë¥‘π„π∫√‘‡«≥„¥∫√‘‡«≥Àπ÷ËßÕ¬à“߇À¡“– ¡ (‡Õ‘∫, 2542) ÷Ëß®–™à«¬ªÑÕß°—πº≈°√–∑∫‡™‘ß ¿“æ·«¥-≈âÕ¡‰¥â
¢âÕ¡Ÿ≈®“°°“√¢ÿ¥ ”√«®™—Èπ¥‘π∫√‘‡«≥°àÕ √â“ßÕ“§“√µà“ßÊ ¿“¬„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ™’È„Àâ‡ÀÁπ«à“™—Èπ¥‘π
‚¥¬∑—Ë«‰ª‡ªìπ™—Èπ∑√“¬≈–‡Õ’¬¥ªπ¥‘πµ–°Õπ ’πÈ”µ“≈·¥ßÀπ“ 2-6 ‡¡µ√ µ“¡¥â«¬™—Èπ∑√“¬·πàπª“π°≈“ß·≈–§àլʇª≈’Ë¬π‰ª‡ªìπ™—Èπ∑√“¬·πàπªπ¥‘π ·≈–¡’√–¥—∫πÈ”„µâ¥‘π≈÷°‡°‘π10 ‡¡µ√®“°º‘«¥‘π °“√‰À≈ ÷¡¢ÕßπÈ”¡’§à“ 0.006 ∂÷ß0.008 ´¡./«‘π“∑’ ∑—ÈßÀ¡¥π’È· ¥ß„Àâ‡ÀÁπ«à“ ¥‘π¿“¬„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ‡ªìπ¥‘π´÷Ëß¡’πÈ”‰À≈∫à“‰¥âßà“¬ ·≈–°“√°√àÕπ¢Õߥ‘π®–‡°‘¥‰¥â¡“°‡π◊ËÕß®“°‡π◊ÈÕ¥‘π‡ªìπ∑√“¬¡’·√߬÷¥√–À«à“ßÕπÿ¿“§¥‘πµË” §«“¡≈“¥‡Õ’¬ß¢Õßæ◊Èπ∑’ËÕ¬Ÿà√–À«à“ß 5 - 6.5 % ´÷Ë߇ªìπ√–¥—∫∑’ËÕ“®∑”„À⇰‘¥ªí≠À“°“√∂Ÿ°æ—¥æ“¢ÕßÀπâ“¥‘π‰¥âª“π°≈“ß (º—ß·¡à∫∑‚§√ß°“√®—¥µ—Èß«‘∑¬“‡¢µ ÿ√“…Æ√å∏“π’ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å ‰¡à√–∫ÿªïæ.».) Õ¬à“߉√°Áµ“¡‡π◊ËÕß®“°‰¥â¡’°“√„™âª√–‚¬™πå∑’Ë¥‘π‡æ◊ËÕ°àÕ √â“ß Õ“§“√ ∂ππ ·≈– ‘Ëß°àÕ √â“ßÕ◊ËπÊ ∑”„Àâæ◊Èπ∑’Ë∫“ß·Ààß∂Ÿ°¢ÿ¥ µ—¥·µàß®π¡’§«“¡≈“¥™—π Ÿß°«à“ 45
Õß»“·≈–¡’æ◊Èπ∑’ËÀ≈“¬·Àà߇°‘¥°“√æ—ß∑≈“¬¢Õߥ‘π„πÕ—µ√“∑’Ë Ÿß °“√„™âæ◊™§≈ÿ¡¥‘π (cover crop/tree) ‡ªìπ«‘∏’°“√Àπ÷Ëß∑’Ë “¡“√∂≈¥°“√ Ÿ≠‡ ’¬¥‘π·≈–πÈ”®“°æ◊Èπ∑’ˉ¥â ¡ß§≈·≈–Õÿ∑—¬ (2536) æ∫«à“ °“√ Ÿ≠‡ ’¬¥‘π·≈–πÈ”®“°æ◊Èπ∑’Ë·ª≈ß∑’˪≈Ÿ°æ◊™µà“ß™π‘¥°—π¡’§«“¡·µ°µà“ß°—πÕ¬à“ß¡’π—¬ ”§—≠∑“ß ∂‘µ‘ ∑—Èßπ’È ·ª≈ß∑’˪≈Ÿ°æ◊™·∫∫ªÉ“‰¡â®– Ÿ≠‡ ’¬¥‘πµË” ÿ¥ª√–¡“≥ 1.5 µ—π/‡Œ°·µ√å/ªï „π¢≥–∑’Ë·ª≈ߧ«∫§ÿ¡´÷Ë߉¡à‰¥âª≈Ÿ°æ◊™‡≈¬ ®–¡’°“√ Ÿ≠‡ ’¬¥‘π∂÷ß 50 µ—π/‡Œ°·µ√å/ªïπÕ°®“°π—Èπ §ÿ≥¿“æ¢ÕßπÈ”´÷Ëßµ√«®«—¥‰¥â®“°ª√‘¡“≥¢Õ߉π‚µ√‡®π·≈–øÕ øÕ√— „ππÈ”‰À≈∫à“ ¬—ß·µ°µà“ß°—π√–À«à“ßπÈ”‰À≈∫à“®“°·ª≈ß∑’Ë¡’æ◊™§≈ÿ¡µà“ß™π‘¥°—π(Sharpley and Smith, 1991) °“√„™âæ◊™§≈ÿ¡¥‘πµ√–°Ÿ≈∂—Ë« ‡™àπ ∂—Ë«‡æÕ√å√“‡√’¬ ∂—Ë«≈“¬ ∂—Ë«‡´Õ√“‚µ√ ´÷Ë߇ªìπæ◊™§≈ÿ¡∑’Ë¡’°“√‡®√‘≠‡µ‘∫‚µ·∫∫‡≈◊ÈÕ¬ º‘«¥‘π “¡“√∂‡æ‘Ë¡ª√‘¡“≥‰π‚µ√‡®π·≈–Õ‘π∑√’¬«—µ∂ÿ„Àⷰ॑π¥â«¬·≈–π‘¬¡ª≈Ÿ°‡ªìπæ◊™§≈ÿ¡„π «π¬“ßæ“√“·≈– «π‰¡âº≈ (ª√–-æ—≤πåå·≈–»—°¥“, 2530) „π¢≥–∑’ËÀ≠â“·Ω°‡ªìπæ◊™§≈ÿ¡¥‘π∑’Ë„™â°—πÕ¬à“ß·æ√àÀ≈“¬∑’Ë ÿ¥„πª√–‡∑»‰∑¬‡ªìπº≈ ◊∫‡π◊ËÕß¡“®“°æ√–√“™¥”√‘„π°“√∑¥≈Õß„™âÀ≠â“·Ω°„π°“√Õπÿ√—°…契π·≈–πÈ”µ—Èß·µàªï æ.». 2534 ( ”π—°ß“π§≥–°√√¡°“√摇»…‡æ◊ËÕª√– “πß“π‚§√ß°“√Õ—π‡π◊ËÕß¡“®“°æ√–√“™¥”√‘, 2537) ‰¥â¡’°“√»÷°…“°“√„™âª√–‚¬™πåÀ≠â“·Ω°„π°“√Õπÿ√—°…契π·≈–πÈ”„πæ◊Èπ∑’˵à“ßÊ ‡™àπ „π·ª≈߉¡âº≈ „π√àÕßπÈ”„π‰√à¡—π ”ª–À≈—ß „π·ª≈ß∂—Ë«‡À≈◊Õß „π‰√àπ“ «πº ¡ ·≈–
Songklanakarin J. Sci. Technol.
Vol.29 No.1 Jan. - Feb. 2007 136
Soil management and conservation in PSU, Surat Thani Campus
Choengthong, S.
µ“¡¢Õ∫·À≈àßπÈ” (‡°√’¬ß»—°¥‘Ï, 2537) ”À√—∫µâπ°√–¥ÿ¡∑Õßπ—È𠇪ìπæ◊™∑’Ë„™âª≈Ÿ°„πß“π¿Ÿ¡‘∑—»πåÀ≈“¬≈—°…≥– ‡™àπ∑¥·∑π π“¡À≠â“„π∑’Ë≈“¥™—π´÷Ëßµ—¥À≠â“≈”∫“° ªÑÕß°—π°“√æ—ß∑≈“¬¢Õߥ‘π „™â°”Àπ¥¢Õ∫‡¢µ¢Õßæ◊Èπ∑’Ë ( ¡®‘µ,2540) ·µà¬—߉¡àæ∫«à“¡’°“√»÷°…“∂÷ߪ√– ‘∑∏‘¿“æ¢Õßµâπ°√–¥ÿ¡∑Õß„π°“√≈¥°“√™–≈â“ߢÕߥ‘π
°“√»÷°…“ ¡∫—µ‘¢Õߥ‘π‚¥¬°“√‡°Á∫µ—«Õ¬à“߉ª«‘‘‡§√“–Àå„πÀâÕߪؑ∫—µ‘°“√·≈–π”¢âÕ¡Ÿ≈∑’ˉ¥â‰ª„™â„π°“√ª√—∫ª√ÿߥ‘π„Àâ‡À¡“– ¡µàÕ°“√‡®√‘≠‡µ‘∫‚µ¢Õßæ◊™‡ªìπÕ’°«‘∏’Àπ÷Ëß„π°“√®—¥°“√∑√—欓°√¥‘π °“√«‘‡§√“–Àåª√‘¡“≥∏“µÿÕ“À“√À≈—° §à“§«“¡π”‰øøÑ“¢Õß “√≈–≈“¬¥‘π ¢âÕ¡Ÿ≈‡À≈à“π’ȇªìπª√–‚¬™πå„π°“√«“ß·ºπ°“√„™â∑’Ë¥‘π °“√ª≈Ÿ°æ◊™°“√¥Ÿ·≈√—°…“æ◊™∑’Ë¡’Õ¬Ÿà·≈â«Õ¬à“߉¥âº≈¥’∑’Ë¡À“«‘∑¬“≈—¬∏√√¡»“ µ√å »Ÿπ¬å√—ß ‘µ (∫ÿ≠Àß å, 2542) ‡π◊ËÕß®“°æ◊™µà“ß™π‘¥µâÕß°“√∏“µÿÕ“À“√·≈–°“√®—¥°“√∑’˵à“ß°—π °“√„™â∑’Ë¥‘π¿“¬„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ à«π„À≠à‡ªìπ°“√„™â∑’Ë¥‘π ´÷Ëß Õ¥§≈âÕß°—∫º—ß·¡à∫∑¢Õß‚§√ß°“√®—¥µ—Èß«‘∑¬“‡¢µ∑’Ë¡’°“√·∫àßæ◊Èπ∑’ˇªìπ‡¢µ°“√„™âª√–‚¬™πåµà“ßÊ ‡™àπ ‡¢µÕ“§“√‡√’¬π π“¡°’Ó æ◊Èπ∑’ËÕπÿ√—°…å ·π«µâπ‰¡â ·≈–®–¡’°“√„™â∑’Ë¥‘πµ“¡ ¡√√∂π–¢Õß∑’Ë¥‘π‡©æ“–„πæ◊Èπ∑’Ë∑’Ë®–¡’°“√ª≈Ÿ°æ√√≥‰¡â¬◊πµâπÀ√◊Õ‰¡âª√–¥—∫ °“√»÷°…“‡√◊ËÕß°“√®—¥°“√∑√—欓°√¥‘π„π‡¢µ°“√»÷°…“œ ‚¥¬¡’°“√»÷°…“§√Õ∫§≈ÿ¡∂÷ß ¡∫—µ‘∑“߇§¡’·≈–∑“ß°“¬¿“æ¢Õߥ‘π ‡æ◊ËÕÀ“·π«∑“ß„π°“√«“ß·ºπ°“√„™â∑’Ë¥‘π„Àâ‡À¡“–µàÕ°“√‡®√‘≠‡µ‘∫‚µ¢Õßæ◊™æ√√≥‰¡â∑’˪≈Ÿ° ≈¥Õ—µ√“°“√™–≈â“ߺ‘«Àπâ“¢Õߥ‘π·≈– “¡“√∂„À⧔·π–π”∂÷ß«‘∏’°“√∫”√ÿß√—°…“„Àâ∏“µÿÕ“À“√(ªÿܬ)·°àæ◊™∑’˪≈Ÿ°„π‡¢µ°“√»÷°…“ -ÿ√“…Æ√å∏“π’ „ÀâæÕ‡À¡“–°—∫§«“¡µâÕß°“√ ®–‡ªìπ°“√ª√–À¬—¥ß∫ª√–¡“≥„π°“√∫”√ÿß√—°…“æ◊™‰¥âÕ’° à«πÀπ÷Ëß·≈–°“√«“ß·ºπ°“√„™â∑’Ë¥‘π ”À√—∫°“√ª≈Ÿ°æ◊™æ√√≥µà“ß Ê„πÕ𓧵 “¡“√∂Õ“»—¬¢âÕ¡Ÿ≈®“° ¡∫—µ‘¢Õߥ‘π
«— ¥ÿÕÿª°√≥å·≈–«‘∏’°“√»÷°…“
1. ∂“π∑’ˇ°Á∫µ—«Õ¬à“ߥ‘π·≈–¢âÕ¡Ÿ≈æ◊Èπ∞“π¥‘π„πæ◊Èπ∑’Ë
¥”‡π‘π°“√∑¥≈Õß„πæ◊Èπ∑’ˇ¢µ°“√»÷°…“ ÿ√“…Æ√-å∏“π’ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å ®—ßÀ«—¥ ÿ√“…Æ√å∏“π’ ®”-·π°°“√„™âæ◊Èπ∑’Ë·µà≈–·ª≈ß 5 ·ª≈ß (A1-A5) ¥—ßπ’È A1
‡ªìπæ◊Èπ∑’Ë¢â“ßÀÕæ—°π—°»÷°…“ ‡ªìπ∑’Ë‚≈àß¡’À≠â“∏√√¡™“µ‘·≈–
∂—Ë«∑’Ë„™â§≈ÿ¡¥‘π„π «π¬“ߢ÷Èπª°§≈ÿ¡ ¡’æ◊Èπ∑’˪√–¡“≥ 10 ‰√àA2 ‡ªìπæ◊Èπ∑’˪ɓ≈–‡¡“–¥â“πÀ≈—ßÀÕæ—°π—°»÷°…“ √«¡∂÷ߪɓ-≈–‡¡“–¥â“πÀ≈—ß∑’Ëæ—°∫ÿ§≈“°√ ≈—°…≥–‡ªìπªÉ“·∫∫‡µ‘∫‚µ§√—Èß∑’Ë Õß (secondary growth) æ◊Èπ∑’˪√–¡“≥ 25 ‰√à‡ªìπªÉ“∑’Ëà‡°‘¥„À¡à·∑π∑’˪ɓ¥—È߇¥‘¡ A3 §◊Õæ◊Èπ∑’Ë «π∑ÿ‡√’¬π ∑’Ë¡’°“√ª≈Ÿ°‡ªìπ·∂«¡’Õ“¬ÿª√–¡“≥ 15 ªï æ◊Èπ∑’˪√–¡“≥ 4 ‰√àA4 ‡ªìπæ◊Èπ∑’Ë «π¬“ßæ“√“ ¡’æ◊Èπ∑’˪√–¡“≥ 45 ‰√à ·≈–A5
π“¡À≠â“Àπâ“Õ“§“√∫√‘À“√ “¡“√∂„™â‡ªìπµ—«·∑π¢Õßæ◊Èπ∑’˪≈Ÿ°À≠⓪√–¥—∫¿“¬„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’æ◊Èπ∑’Ë A1 ∂÷ß A4 ¡’§«“¡≈“¥™—πÕ¬Ÿà√–À«à“ß 5-8 % „π¢≥–∑’Ë π“¡À≠â“/æ◊Èπ∑’˪≈Ÿ°À≠â“ (A5) ¿“¬„π‡¢µ°“√»÷°…“¡’§«“¡≈“¥™—πÕ¬Ÿà√–À«à“ß 1-5 % ·≈–‡π◊ËÕß®“° π“¡À≠â“¡’æ◊™ª°§≈ÿ¡µ≈Õ¥∑—Èߪï®÷߉¡à¡’ªí≠À“„π°“√™–≈â“ß·µàÕ¬à“ß„¥
∑”°“√‡°Á∫µ—«Õ¬à“ߥ‘π®“°æ◊Èπ∑’Ë·µà≈–·ª≈ß ∑’Ë√–¥—∫§«“¡≈÷° 0-30 ·≈– 30-50 ´¡.‚¥¬ ÿࡇ°Á∫µ—«Õ¬à“ß 35 ®ÿ¥µàÕæ◊Èπ∑’Ë 10 ‰√à ∂â“æ◊Èπ∑’ËπâÕ¬°«à“À√◊Õ¡“°°«à“ 10 ‰√à „Àâ≈¥À√◊Õ‡æ‘Ë¡®”π«π®ÿ¥‡°Á∫µ—«Õ¬à“ßµ“¡Õ—µ√“ à«π·ª≈ߢπ“¥∑’Ë≈¥≈ßÀ√◊Õ‡æ‘Ë¡¢÷Èπ ‚¥¬„™â«‘∏’°“√µ“¡∑’Ë·π–π”‚¥¬»Ÿπ¬åªØ‘∫—µ‘°“√«‘‡§√“–Àå°≈“ߧ≥–∑√—欓°√∏√√¡™“µ‘ ¡À“-«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å «‘∑¬“‡¢µÀ“¥„À≠à π”µ—«Õ¬à“ߥ‘π∑’ˉ¥â à߉ª«‘‡§√“–Àåª√‘¡“≥‡π◊ÈÕ¥‘π (soil texture) §«“¡‡ªìπ°√¥¥à“ß (pH meter ¥‘π:πÈ” = 1:5) ª√‘¡“≥∏“µÿÕ“À“√À≈—°·≈–√Õß (N:Kjeldahl method) (P: Bray II method)
(K,Ca,Mg: ammonium acetate method ·≈–«—¥¥â«¬ ato-
mic absorption spectrophotometer flamephoto-
meter) (S: °—¥¥â«¬ CaH2PO4 «—¥¥â«¬ turbidimetric me-
thod) §à“§«“¡®ÿ„π°“√·≈°‡ª≈’ˬπª√–®ÿ∫«°¢Õߥ‘π (am-
monium acetate method) §à“°“√π”‰øøÑ“ (electrical
conductivity meter ¥‘π:πÈ”=1:5) ª√‘¡“≥Õ‘π∑√’¬«—µ∂ÿ(Walkley-Black method) π”§à“∑’Ë«‘‡§√“–À剥≪®—¥∑”‡ªìπµ“√“߇ª√’¬∫‡∑’¬∫√–À«à“ßæ◊Èπ∑’Ë·ª≈ß∑’Ë„™âª√–‚¬™πåµà“ß°—π ®—¥∑”§”·π–π”„π°“√„Àâ∏“µÿÕ“À“√·°àæ◊™(ªÿܬ) °“√„™âªŸπª√—∫§«“¡‡ªìπ°√¥-¥à“ß ·≈–™π‘¥¢Õßæ◊™æ√√≥∑’Ë “¡“√∂¢÷Èπ‰¥â¥’·≈–‰¡à°àÕ„À⇰‘¥°“√™–≈â“ߺ‘«Àπâ“¢Õߥ‘π‚¥¬®–¡’°“√‡ª√’¬∫‡∑’¬∫¢âÕ¡Ÿ≈§«“¡µâÕß°“√∏“µÿÕ“À“√æ◊™·≈– ¿“æ·«¥≈âÕ¡¢Õߥ‘π∑’Ëæ◊™·µà≈–™π‘¥µâÕß°“√ (land
use requirement) °—∫ ¡∫—µ‘µà“ßÊ ¢Õߥ‘π∑’ˉ¥â®“°°“√«‘‡§√“–Àå„πæ◊Èπ∑’˪≈Ÿ°®√‘ß
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137 ÿ™“µ‘ ‡™‘ß∑Õß
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2.1 °“√«“ß·ºπ°“√∑¥≈Õß
∑”°“√«“ß·ºπ°“√∑¥≈Õß·∫∫ ÿà¡¿“¬„π∫≈ÁÕ° (ra-
ndomized complete block design) ®”π«π 4 È” ¡’ 4 «‘∏’°“√∑¥≈Õߥ—ßπ’ȧ◊Õ
1) ‰¡àª≈Ÿ°æ◊™§≈ÿ¡ ‡ªìπ·ª≈ߧ«∫§ÿ¡2) ª≈Ÿ°∂—Ë«‡æÕ√å√“‡√’¬3) ª≈Ÿ°°√–¥ÿ¡∑Õß ·≈–4) ª≈Ÿ°À≠â“·Ω° æ◊Èπ∑’Ë·ª≈߬àÕ¬ 2x4 ‡¡µ√‚¥¬
æ◊Èπ∑’Ë∑’Ë∑”·ª≈ß∑¥≈Õß „™âæ◊Èπ∑’Ë´÷Ëß¡’§«“¡≈“¥™—πª√–¡“≥5 % ´÷Ë߇ªìπ§à“‡©≈’ˬ¢Õßæ◊Èπ∑’ˇ¢µ°“√»÷°…“œ æ◊™∑’˪≈Ÿ°®–‰¡à„Àâªÿܬ ‡æ◊ËÕ∑¥ Õ∫«à“æ◊™™π‘¥„¥¢÷Èπ‰¥â„πæ◊Èπ∑’Ë¥’∑’Ë ÿ¥„π ¿“æ∏√√¡™“µ‘ ·≈–¡’°“√∑”∫àÕ¥—°µ–°Õπ ‡æ◊ËÕ„Àâ “¡“√∂‡ª√’¬∫‡∑’¬∫Õ—µ√“°“√ Ÿ≠‡ ’¬¥‘π®“°·µà≈–·ª≈߉¥â 2.2 «‘∏’°“√ª≈Ÿ°·≈–°“√∑”∫àÕ¥—°µ–°Õπ¥‘π
∂—Ë«‡æÕ√å√“‡√’¬ª≈Ÿ°‚¥¬«‘∏’À«à“π‡¡≈Á¥„πÕ—µ√“ 3
°°./‰√à À√◊Õ 15 °√—¡µàÕ·ª≈ß¢π“¥ 8 µ√.‡¡µ√ µâπ°√–¥ÿ¡∑Õߪ≈Ÿ°‚¥¬°“√ªí°™”®“° à«π¢Õß≈”µâπ‡≈◊ÈÕ¬∑’Ë¡’√“°µ‘¥Õ¬Ÿà„™â√–¬–ª≈Ÿ° 10 x 10 ´¡.À≠â“·Ω°ª≈Ÿ°‚¥¬„™â∑àÕπæ—π∏ÿ姫“¡¬“«ª√–¡“≥ 25 ´¡.„™â√–¬–ª≈Ÿ° 10 x10 ´¡.∑”∫àÕ¥—°µ–°Õπ‡ªìπ∫àÕ¥‘π«“ß∑⓬·ª≈ß ¢«“ß∑“߉À≈¢ÕßπÈ”¡’¢π“¥°«â“ß x ¬“« x ≈÷° ‡∑à“°—∫ 100 x 200 x 50 ¡.°âπ-∫àÕ·≈–ºπ—ß∫àÕ∫ÿ¥â«¬æ≈“ µ‘° ·≈–„™â‰¡â°—Èπ°—ππÈ”®“°¿“¬πÕ°‰À≈‡¢â“·ª≈ß 2.3 °“√∫—π∑÷°·≈–«‘‡§√“–Àå¢âÕ¡Ÿ≈
µ‘¥µ—ÈßÕÿª°√≥å«—¥πÈ”Ωπ„π∫√‘‡«≥·ª≈ß∑¥≈Õß«—¥
ª≈Ÿ°¡’Õ“¬ÿ‰¥â 94 «—π „™â«‘∏’°“√ —߇°µ¥â«¬ “¬µ“ (visual
observation) ‡æ◊ËÕ»÷°…“§«“¡ “¡“√∂„π°“√ª°§≈ÿ¡æ◊Èπ∑’Ë¢Õßæ◊™§≈ÿ¡ 3 ™π‘¥ ·≈–·ª≈ߧ«∫§ÿ¡ ‚¥¬∫—π∑÷° % æ◊Èπ∑’Ë∑’Ë∂Ÿ°ª°§≈ÿ¡ ∑”°“√‡°Á∫µ–°Õπ¥‘π∑’˧ߧâ“ßÕ¬Ÿà„π∫àÕ¥—°µ–°Õπ ∑ÿ° 15 «—π ¡“∑”°“√Õ∫∑’Ë 105 0C ®π¥‘π·Àâß ‡ª√’¬∫‡∑’¬∫πÈ”Àπ—°·ÀâߢÕߥ‘π√–À«à“ß ‘Ëß∑¥≈Õß®π°√–∑—Ëß ‘Èπ ÿ¥°“√∑¥≈Õß
º≈°“√»÷°…“
1. ¡∫—µ‘¢Õߥ‘π
°“√»÷°…“§ÿ≥ ¡∫—µ‘¢Õߥ‘π®“°°“√ àßµ—«Õ¬à“߉ª«‘‡§√“–Àå„πÀâÕߪؑ∫—µ‘°“√æ∫«à“ ¥‘π à«π„À≠à‡ªìπ¥‘π√à«πªπ∑√“¬ (sandy loam) (Table 1) ¬°‡«âπ¥‘π∫√‘‡«≥ π“¡À≠â“Àπâ“Õ“§“√∫√‘À“√‡ªìπ¥‘π√à«π‡À𒬫ªπ∑√“¬ (sandy clay
loam) ‡π◊ËÕß®“°¥‘π∫√‘‡«≥π’ȇªìπ¥‘π∂¡„π¢≥–∑”°“√°àÕ- √â“ß ‰¡à„™à¥‘π‡¥‘¡„πæ◊Èπ∑’Ë ®÷ß¡’‡π◊ÈÕ¥‘πµà“ß®“°µ”·ÀπàßÕ◊Ëπ ”À√—∫§à“§«“¡‡ªìπ°√¥¥à“ߢÕߥ‘π∫π (0-30 ´¡.) Õ¬àŸ√–-À«à“ß 4.6-7.6 ·≈–¡’§à“§«“¡‡ªìπ°√¥¥à“ߢÕߥ‘π∫πµÕπ≈à“ß (30-50´¡.) Õ¬Ÿà√–À«à“ß 4.5-6.3 · ¥ß«à“¥‘π à«π„À≠à¿“¬„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ¡’ªØ‘°‘√‘¬“¥‘π‡ªìπ°√¥‡≈Á°πâÕ¬∂÷ߪ“π°≈“ß ‡ªìπ¥‘π∑’ˉ¡à¡’ªí≠À“‡°’ˬ«°—∫ªØ‘°‘√‘¬“¥‘π ¥‘π¡’§à“§«“¡π”‰øøÑ“ (Ec) Õ¬Ÿà√–À«à“ß 8.5 -
60 µS/cm ÷Ëߵ˔°«à“√–¥—∫¥‘π‡§Á¡∑’Ë¡’§à“§«“¡π”‰øøÑ“ 2000
µS/cm ¢÷Èπ‰ª ∂◊Õ«à“‡ªìπ¥‘π∑’ˉ¡à¡’ªí≠À“¥â“𧫓¡‡§Á¡ ¥—ßπ—Èπ‰¡à¡’§«“¡®”‡ªìπµâÕß·°â‰¢§«“¡‡§Á¡°àÕπ°“√ª≈Ÿ°æ◊™
Table 1. Sampling sites, soil texture, percent of soil particles, pH and electrical
conductivity of soil at 0 - 30 and 30 - 50 cm. depth.
Sampling Depth Soil particles pH Electrical
sites (cm) Texture conductivity
%Sand % Silt % Clay Ec(µS/cm)
A1
0-30 Sandy loam 75 9 16 8 60 30-50 Sandy loam 70 10 20 6 20
A2
0-30 Sandy loam 73 9 18 6 12 30-50 Sandy loam 71 11 18 6 9
A3
0-30 Sandy loam 74 9 17 5 25 30-50 Sandy loam 73 9 18 5 20
A4
0-30 Sandy loam 75 6 19 5 9 30-50 Sandy loam 73 8 19 5 7
A5
0-30 Sandy clay loam 69 8 23 6 26 30-50 Sandy clay loam 70 8 22 6 15
A1 = Area beside dormitory A2 = Areas behind dormitory and staff buildings
A3 = Durian orchard A4 = Rubber planting areas
A5 = Lawn in front of administrative building
ª√‘¡“≥·≈–°“√°√–®“¬¢ÕßΩπ„π∑ÿ° 2 —ª¥“Àå ‡¡◊ËÕæ◊™∑’Ë ®“°°“√ª√–‡¡‘𧫓¡Õÿ¥¡ ¡∫Ÿ√≥å¢Õߥ‘π ‚¥¬
Songklanakarin J. Sci. Technol.
Vol.29 No.1 Jan. - Feb. 2007 138
Soil management and conservation in PSU, Surat Thani Campus
Choengthong, S.
°“√‡∑’¬∫°—∫§à“¡“µ√∞“π√–¥—∫§«“¡Õÿ¥¡ ¡∫Ÿ√≥å¢Õߥ‘π¢Õß°√¡æ—≤π“∑’Ë¥‘π (¡À√√≥πæ, 2542) æ∫«à“¥‘π„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ (Table 2) ¡’ª√‘¡“≥‰π‚µ√-‡®π∑—ÈßÀ¡¥ µË”°«à“ 0.20 % ¥—ßπ—Èπ °“√ª≈Ÿ°æ◊™∑ÿ°™π‘¥∑ÿ°æ◊Èπ∑’Ë„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’µâÕߧ”π÷ß°“√„ àªÿܬ∑’Ë¡’‰π‚µ√‡®π„πª√‘¡“≥ Ÿß„Àâ·°àæ◊™ à«π√–¥—∫ª√‘¡“≥∏“µÿøÕ øÕ√— (availablephosphorus) ¡’ª√‘¡“≥‡æ’¬ßæÕ„π¥‘π∫π (0 - 30 ´¡.) „πæ◊Èπ∑’Ë¢â“ßÀÕæ—°π—°»÷°…“·≈–„π «π∑ÿ‡√’¬π (A1 ·≈– A3) ∑’Ë√–¥—∫ 47.02 ·≈– 48.64 ¡°./°°.µ“¡≈”¥—∫‡π◊ËÕß®“°æ◊Èπ∑’Ë A1 ¡’À≠â“·≈–æ◊™µ√–°Ÿ≈∂—Ë«ª°§≈ÿ¡¡’°“√ Ÿ≠‡ ’¬∏“µÿøÕ øÕ√— µË” à«π A3 ‡ªìπ «π∑ÿ‡√’¬π∑’ˉ¥â√—∫ªÿܬ‡æ‘Ë¡‡µ‘¡®÷߬—ß¡’∏“µÿøÕ øÕ√— ‡À≈◊ÕÕ¬Ÿà „π¢≥–∑’Ëæ◊Èπ∑’ËÕ◊ËπÊ (A2 ,A4 ·≈– A5) ¡’ª√‘¡“≥∏“µÿøÕ øÕ√— Õ¬Ÿà√–À«à“ß 0.90 ∂÷ß 5.03 ¡°./°°.´÷Ëߵ˔°«à“§à“¡“µ√∞“π∑’Ë 10 ¡°./°°.πÕ°®“°π’Ȫ√‘¡“≥∏“µÿ‚æ·∑ -‡´’¬¡¡’ª√‘¡“≥µË”°«à“§à“¡“µ√∞“π 0.2(cmol
ckg-1) „π∑ÿ°
æ◊Èπ∑’Ë ”√«® ‚¥¬ª√‘¡“≥∏“µÿ‚æ·∑ ‡´’¬¡„π¥‘π¡’§à“Õ¬Ÿà√–À«à“ß 0.02- 0.08 (cmol
ckg-1) ´÷Ë߇ªìπ§à“∑’˵˔¡“° Õ“®
‡°‘¥®“°∂Ÿ°™–≈â“߇π◊ËÕß®“°§«“¡≈“¥‡Õ’¬ß¢Õßæ◊Èπ∑’Ë·≈–‡π◊ÈÕ¥‘π‡ªìπ¥‘π√à«πªπ∑√“¬ À√◊Õ ¥‘π√à«π‡À𒬫ªπ∑√“¬´÷Ëߪ°µ‘®–¡’∏“µÿ‚æ·∑ ‡´’¬¡µË”Õ¬Ÿà·≈â« °≈à“«‚¥¬ √ÿª ”À√—∫ª√‘¡“≥∏“µÿÕ“À“√À≈—°∑—Èß “¡∏“µÿ §◊Õ N, P ·≈– K „πæ◊Èπ∑’ˇ¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’π—Èπ¡’ª√‘¡“≥µË”¡“° ¬°‡«âπª√‘¡“≥∏“µÿøÕ øÕ√— „π∫√‘‡«≥æ◊Èπ∑’Ë¢â“ßÀÕæ—°π—°»÷°…“·≈–∫√‘‡«≥ «π∑ÿ‡√’¬π∑’Ë¡’„πª√‘¡“≥∑’ˇ撬ßæÕ ”À√—∫∏“µÿÕ“À“√√Õß (Ca, Mg, S) (Table 2) π—Èπæ∫«à“ „πæ◊Èπ∑’Ë¢â“ß
ÀÕæ—°π—°»÷°…“·≈– π“¡À≠â“Àπâ“Õ“§“√∫√‘À“√ (A1 ·≈–A5) ¡’ª√‘¡“≥∏“µÿ·§≈‡´’¬¡·≈–·¡°π’‡´’¬¡„π¥‘π∫π„πª√‘¡“≥∑’ˇ撬ßæÕ ‡¡◊ËÕ‡∑’¬∫°—∫§à“¡“µ√∞“π ”À√—∫·§≈-‡ ’¬¡∑’Ë 1.2 cmol
ckg-1 ·≈– ”À√—∫·¡°π’‡ ’ˬ¡∑’Ë 0.40
(cmolckg-1) ”À√—∫ª√‘¡“≥∏“µÿ´—≈‡øÕ√åπ—Èπæ∫«à“ ‡©æ“–
¥‘π∫π¢Õßæ◊Èπ∑’Ë¢â“ßÀÕæ—°π—°»÷°…“ ¡’ª√‘¡“≥∏“µÿ —≈‡øÕ√åª√–¡“≥ 16 mg/kg „π¢≥–∑’Ë§à“¡“µ√∞“π°”À𥉫â∑’Ë 15
¡°./°°. à«π„πæ◊Èπ∑’˪ɓ≈–‡¡“–¥â“πÀ≈—ßÀÕæ—°π—°»÷°…“·≈–ÀÕæ—°∫ÿ§≈“°√ æ◊Èπ∑’Ë «π∑ÿ‡√’¬π ·≈–æ◊Èπ∑’Ë «π¬“ß¡’ª√‘¡“≥ ∏“µÿ·§≈‡´’¬¡·¡°π’‡´’¬¡ ·≈–´—≈‡øÕ√åµË”°«à“§à“¡“µ√∞“π ®“° (Table 3) · ¥ß„Àâ‡ÀÁπ«à“¥‘π„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å ¡’ª√‘¡“≥Õ‘π∑√’¬«—µ∂ÿ„πª√‘¡“≥µË” §◊Õ πâÕ¬°«à“ 1.5 gkg-1 Õ“®‡°‘¥®“°°“√™–≈â“ߢÕßÀπâ“¥‘π∑”„À≡ࡒ°“√ – ¡¢ÕßÕ‘π∑√’¬«—µ∂ÿ ´÷Ëߪ°µ‘®–‡ªìπ·À≈àߢÕß∏“µÿÕ“À“√∑’Ë ”§—≠‡™àπ ∏“µÿ‰π‚µ√‡®π ∏“µÿøÕ øÕ√— ·≈–®ÿ≈∏“µÿÕ◊ËπÊ (π«≈»√’·≈–§≥–, 2543) πÕ°®“°π’È°“√∑’Ë¥‘π¡’Õ‘π∑√’¬«—µ∂ÿµË” ∑”„Àâ¡’§«“¡ “¡“√∂„π°“√·≈°‡ª≈’Ë¬π·§µ‰ÕÕÕπµË”‰ª¥â«¬ ´÷Ëß®–‡ÀÁπ‰¥â®“°§à“°“√·≈°‡ª≈’ˬπª√–®ÿ∫«° (cation ex-
change capacity : CEC) ¡’§à“Õ¬Ÿà√–À«à“ß 1.65 ∂÷ß 2
.78 cmolckg-1 ‡∑à“π—Èπ °“√∑’Ë¥‘π¡’Õ‘π∑√’¬«—µ∂ÿµË”¬—ß àߺ≈
„Àâ¥‘π¡’§«“¡ “¡“√∂„π°“√¥Ÿ¥´—∫·≈–Õÿâ¡πÈ”µË”‰ª¥â«¬·≈–¥‘π¬—ß¡’°“√®—∫µ—«‡ªìπ°âÕππâÕ¬ ¥‘π‰¡à¡—Ëπ§ß·≈–‰¡à‡ ∂’¬√ ∂Ÿ°™–≈â“߉ª‰¥âßà“¬ (Nelson and Sommers, 1982)
”À√—∫ª√‘¡“≥Õ‘π∑√’¬å§“√å∫Õπ°Á¡’§à“µË”‡™àπ‡¥’¬«°—π ‚¥¬¡’’§à“Õ¬Ÿà√–À«à“ß 2.1- 5.7 gkg-1 ¥‘π„πæ◊Èπ∑’ˇ¢µ°“√»÷°…“
Table 2. Quantity of primary nutrient elements and secondary nutrient elements at
different depths.
Site Depth Primary nutrient elements Secondary nutrient elements
Total N Available P Exchangeable K Ca Mg S
(%) (mg/kg) (cmolckg
-1
) (cmolckg
-1
) (cmolckg
-1
) (mg/kg)
A1
0-30 0.04 47.02 0.07 3.21 0.66 16.0830-50 0.03 2.42 0.03 1.11 0.16 10.92
A2
0-30 0.05 1.13 0.06 0.49 0.21 13.4630-50 0.03 1.46 0.04 0.36 0.16 11.43
A3
0-30 0.04 48.64 0.08 0.18 0.04 11.7130-50 0.02 5.03 0.07 0.06 0.02 14.47
A4
0-30 0.05 0.90 0.07 0.39 0.18 11.8330-50 0.03 0.81 0.03 0.26 0.11 9.71
A5
0-30 0.04 1.29 0.05 1.63 0.79 12.2530-50 0.03 0.90 0.02 1.07 0.46 12.24
«. ߢ≈“π§√‘π∑√å «∑∑.
ªï∑’Ë 29 ©∫—∫∑’Ë 1 ¡.§.
-
°.æ. 2550 °“√®—¥°“√·≈–°“√Õπÿ√—°…å¥‘π¿“¬„π ¡.Õ. ‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’
139 ÿ™“µ‘ ‡™‘ß∑Õß
ÿ√“…Æ√å∏“π’ à«π„À≠à‡ªìπ¥‘π∑√“¬ªπ√à«π∂Ÿ°™–≈â“߉¥âßà“¬¡’Õ‘π∑√’¬«—µ∂ÿµË” (4.6 - 9.9 gkg-1) ¡’§«“¡ “¡“√∂„π°“√·≈°‡ª≈’Ë¬π·§µ‰ÕÕÕπµË”(1.65 -2.78 cmol
ckg-1) ·≈–¡’
ª√‘¡“≥∏“µÿÕ“À“√À≈—°∑—Èß “¡∏“µÿ (N, P ·≈– K) µË”¡“°· ¥ß«à“ ‡ªìπ¥‘π∑’Ë¡’§«“¡Õÿ¥¡ ¡∫Ÿ√≥åµË”¡’§«“¡®”‡ªìπµâÕß„ àªÿܬ‡æ◊Ëՙ૬„Àâæ◊™æ√√≥‡µ‘∫‚µ‰¥â¥’
2. º≈°“√∑¥≈ÕßÕπÿ√—°…契π
‡¡◊ËÕæ‘®“√≥“®“°¢âÕ¡Ÿ≈¿Ÿ¡‘Õ“°“» (Table 4) ‚¥¬¡’°“√‡°Á∫¢âÕ¡Ÿ≈ª√‘¡“≥πÈ”Ωπ·≈–Õ—µ√“°“√√–‡À¬πÈ” – ¡æ∫«à“ ª√‘¡“≥Ωπ∑’˵° Ÿß ÿ¥ §◊Õ √–À«à“ß«—π∑’Ë 3 惻®‘°“¬π2545 ∂÷ß «—π∑’Ë 16 惻®‘°“¬π 2545 ¡’ª√‘¡“≥Ωπ‡∑à“°—∫181.40 ¡¡.·≈–ª√‘¡“≥ΩπµË” ÿ¥∑’Ë«—¥‰¥â ‡∑à“°—∫ 45 ¡¡.„π√–À«à“ß«—π∑’Ë 20 µÿ≈“§¡ 2545 ∂÷ß «—π∑’Ë 2 惻®‘°“¬π2545 Õ¬à“߉√°Áµ“¡‡¡◊ËÕæ‘®“√≥“®“°Õ—µ√“°“√√–‡À¬πÈ”„π·µà≈–™à«ß‡«≈“·≈â«æ∫«à“ „π‡°◊Õ∫∑ÿ°™à«ß‡«≈“·≈â«æ∫«à“„π‡°◊Õ∫∑ÿ°™à«ß‡«≈“ª√‘¡“≥Ωπ∑’˵°¡’ª√‘¡“≥¡“°°«à“Õ—µ√“°“√√–‡À¬πÈ”¬°‡«âπ„π™à«ß‡«≈“√–À«à“ß«—π∑’Ë 20
µÿ≈“§¡ 2545 ∂÷ß«—π∑’Ë 2 惻®‘°“¬π 2545 ∑’Ë¡’ª√‘¡“≥πÈ”Ωπ‡æ’¬ß 45 ¡¡.·µàÕ—µ√“°“√√–‡À¬πȔլŸà∑’Ë 50.93 ¡¡.®“°°“√‡ª√’¬∫‡∑’¬∫ª√‘¡“≥πÈ”Ωπ°—∫Õ—µ√“°“√√–‡À¬πÈ”∑”„Àâ∑√“∫«à“ „π·µà≈–™à«ß‡«≈“¥—ß°≈à“«¡’ª√‘¡“≥πÈ”∑’ˇÀ≈◊Õ®“°°“√√–‡À¬·≈–æ◊™ “¡“√∂𔉪„™âª√–‚¬™π剥â πÕ°®“°π’Ȫ√‘¡“≥πÈ”Ωπ∑’Ë Ÿß¡“°°«à“ 100 ¡¡. „π·µà≈–‡¥◊Õπ¬—߇À¡“– ¡ ”À√—∫°“√∑¥≈Õß°“√§«∫§ÿ¡°“√™–≈â“ߢÕߥ‘πÕ’°¥â«¬
Table 3. Organic matter, organic carbon and
cation exchange capacity (CEC)
at different depths.
Site Depth Organic matter Organic carbon CEC (cm) (gkg-1) (gkg-1) (cmol
ckg-1)
A1 0-30 8.3 4.8 1.65
30-50 7.4 4.3 1.98A
2 0-30 9.9 5.6 1.86
30-50 5.7 3.4 1.66A
3 0-30 9.7 5.7 2.41
30-50 4.6 2.7 2.08A
4 0-30 9.8 5.7 2.36
30-50 5.2 2.1 2.17A
5 0-30 8.2 4.8 2.64
30-50 6.6 3.8 2.78
Timing DAP Rainfall Evaporation
(day) (mm) (mm)
Oct 4 - Oct 19, 2002 79-94 92.30 52.04Oct 20 - Nov 2, 2002 95-108 45.00 50.93Nov 3 - Nov 16, 2002 109-122 181.40 32.01Nov 17- Nov 30, 2002 123-136 114.50 39.73Dec 1- Dec 14, 2002 137-150 63.00 33.39
Dec 15, 2002 - 151-169 100.30 46.49Jan 2, 2003
Total 169 596.50 254.59
°“√‡®√‘≠‡µ‘∫‚µ¢Õßæ◊™§≈ÿ¡‡¡◊ËÕ„™â«‘∏’ —߇°µ¥â«¬ “¬-µ“ (visual observation) æ∫«à“ æ◊™§≈ÿ¡∑—Èß 3 ™π‘¥ §◊Õ∂—Ë«‡æÕ√å√“‡√’¬ µâπ°√–¥ÿ¡∑Õß ·≈–À≠â“·Ω° ¡’°“√‡®√‘≠‡µ‘∫‚µ„π√–¬–·√°∑’Ë·µ°µà“ß°—π ‡π◊ËÕß®“°«‘∏’°“√ª≈Ÿ°∑’˵à“ß°—π∂—Ë«‡æÕ√å√“‡√’¬ª≈Ÿ°‚¥¬«‘∏’°“√À«à“π‡¡≈Á¥„πÕ—µ√“ 3 °°./‰√à„π¢≥–∑’˵âπ°√–¥ÿ¡∑Õߪ≈Ÿ°‚¥¬°“√ªí°™”®“° à«π¢Õß≈”µâπ‡≈◊ÈÕ¬∑’Ë¡’√“°ßÕ° ‚¥¬„™â√–¬–ª≈Ÿ° 10 x 10 ¡. ”À√—∫À≠â“·Ω°π—Èπª≈Ÿ°‚¥¬„™â∑àÕπæ—π∏ÿå∑’˵—¥¬Õ¥ÕÕ° §«“¡¬“«¢Õß∑àÕπæ—π∏ÿåª√–¡“≥ 25 ¡.„™â√–¬–ª≈Ÿ° 10 x 10 ¡.∂â“æ‘®“√≥“®“°«‘∏’°“√ª≈Ÿ° æ◊™∑’˪≈Ÿ°‚¥¬°“√ªí°™”À√◊Õ„™â∑àÕπæ—π∏ÿåπà“®–¡’°“√§≈ÿ¡¥‘π„π√–¬–·√°À≈—ß®“°ª≈Ÿ°¡“°°«à“æ◊™∑’˪≈Ÿ°¥â«¬«‘∏’À«à“π‡¡≈Á¥ Õ¬à“߉√°Áµ“¡‡π◊ËÕß®“°‡ªìπ°“√ª≈Ÿ°æ◊™¿“¬„π‡¥◊Õπ°√°Æ“§¡ (18 °.§. 2545) ‚¥¬‰¡à‰¥â¡’°“√„ÀâπÈ”·≈–ªÿܬ‡≈¬ æ◊™∑’˪≈Ÿ°¥â«¬‡¡≈Á¥ ‡™àπ ∂—Ë«‡æÕ√å√“‡√’¬ “¡“√∂‡®√‘≠‡µ‘∫‚µ‰¥â¥’‚¥¬„™âÕ“À“√ – ¡®“°¿“¬„π‡¡≈Á¥„π¢≥–∑’˵âπ°√–¥ÿ¡∑Õß·≈–À≠â“·Ω°¡’°“√™–ß—°°“√‡®√‘≠‡µ‘∫‚µ‰ª∫â“ß ‡π◊ËÕß®“°°√–∑∫·≈âß„π™à«ßª≈“¬‡¥◊Õπ°√°Æ“§¡∂÷ßµâπ‡¥◊Õπ ‘ßÀ“§¡
‡¡◊ËÕ‡√‘Ë¡°“√∑¥≈Õ߇°Á∫µ–°Õπ¥‘ππ—Èπ æ◊™∑—Èß “¡™π‘¥¡’Õ“¬ÿ‰¥â 94 «—π ∂—Ë«‡æÕ√å√“‡√’¬ “¡“√∂ª°§≈ÿ¡æ◊Èπ∑’ˉ¥âª√–¡“≥ 65 % ¢Õßæ◊Èπ∑’Ë·ª≈ß µâπ°√–¥ÿ¡∑Õߪ°§≈ÿ¡æ◊Èπ-∑’ˉ¥âª√–¡“≥ 50 % ¢Õßæ◊Èπ∑’Ë·ª≈ß „π¢≥–∑’ËÀ≠â“·Ω°¡’≈”µâπµ—Èß·≈–¡’°“√·µ°°ÕπâÕ¬ “¡“√∂§≈ÿ¡æ◊Èπ∑’ˉ¥â 45 -
50% ¢Õßæ◊Èπ∑’Ë·ª≈߇¡◊ËÕ ‘Èπ ÿ¥°“√∑¥≈Õß¿“¬„π«—π∑’Ë 2 ¡°√“§¡ 2546
(169 «—πÀ≈—ߪ≈Ÿ°) π—Èπ ‰¡à “¡“√∂‡°Á∫µ–°Õπ¥‘πµàÕ‰¥â
Table 4. Timing, day after planting (DAP), rain
fall and evaporation.
Songklanakarin J. Sci. Technol.
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‡æ√“–„π‡¥◊Õπ¡°√“§¡¢Õߪïπ—Èπ ª√‘¡“≥Ωπ∑—È߇¥◊Õπ¡’‡æ’¬ß2 ¡¡. ®“°°“√ —߇°µ°“√‡®√‘≠‡µ‘∫‚µ¢Õßæ◊™§≈ÿ¡æ∫«à“ ∂—Ë«‡æÕ√å√“‡√’¬ “¡“√∂ª°§≈ÿ¡æ◊Èπ∑’ˉ¥â√–À«à“ß 95 ∂÷ß 100 %
¢Õßæ◊Èπ∑’Ë·ª≈ß µâπ°√–¥ÿ¡∑Õß “¡“√∂ª°§≈ÿ¡æ◊Èπ∑’ˉ¥âª√–-¡“≥ 80-85 % „π¢≥–∑’ËÀ≠â“·Ω°¡’°“√‡µ‘∫‚µ‰¡à¥’π—° ¡’≈”µâπ∑’Ë·Àâ߇ªìπ∫“ß à«π·≈– “¡“√∂¢÷Èπ§≈ÿ¡æ◊Èπ∑’ˉ¥â‡æ’¬ß 65
- 70 % ¢Õßæ◊Èπ∑’Ë·ª≈߇∑à“π—Èπ ”À√—∫„π·ª≈ߧ«∫§ÿ¡¡’«—™æ◊™¢÷Èπ∫â“ߪ√–¡“≥ 20- 30 % ¢Õßæ◊Èπ∑’Ë
®“°°“√»÷°…“«‘∏’°“√≈¥°…——¬°“√¢Õߥ‘π‚¥¬„™â·ºπ°“√ª≈Ÿ°æ◊™ “¡™π‘¥ §◊Õ ∂—Ë«‡æÕ√å√“‡√’¬ µâπ°√–¥ÿ¡∑Õß·≈–À≠â“·Ω° ‡ª√’¬∫‡∑’¬∫°—∫·ª≈ߧ«∫§ÿ¡ æ∫«à“ ª√‘¡“≥µ–-°Õπ¥‘π∑’ˇ°Á∫‰¥â®“°∫àÕ¥—°µ–°Õπ (Table 5) ¡’§«“¡ —¡æ—π∏å°—∫®”π«π«—πÀ≈—ߪ≈Ÿ°æ◊™ ª√‘¡“≥πÈ”Ωπ ·≈–™π‘¥¢Õßæ◊™∑’˪≈Ÿ°Õ¬à“߇ÀÁπ‰¥â™—¥ ‚¥¬æ∫«à“‡¡◊ËÕæ◊™¬—߇≈Á°Õ¬Ÿà(®”π«π«—πÀ≈—ߪ≈Ÿ°πâÕ¬) ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â¡“°°«à“„π¢≥–∑’Ëæ◊™‚µ·≈â« ¬°‡«âπ„π™à«ß‡«≈“∑’Ëæ◊™¡’Õ“¬ÿ√–À«à“ß95 - 108 «—π·≈– 137- 150 «—π ¡’ª√‘¡“≥ΩπµË”‡æ’¬ß 45
¡¡. °—∫ 63 ¡¡.æ∫«à“ª√‘¡“≥¥‘π∑’ˇ°Á∫‰¥âµË” ‡π◊ËÕß®“°ª√‘¡“≥πÈ”ΩππâÕ¬®÷߉¡à àߺ≈µàÕ°“√™–≈â“ßÀπâ“¥‘π¡“°π—°
à«π„π™à«ß‡«≈“Õ◊Ëπ´÷Ëß¡’ª√‘¡“≥πÈ”Ωπ¡“°æÕ∑’Ë∑”„À⇰‘¥°“√™–≈â“ßÕ¬à“ß¡“°π—Èπ ª√‘¡“≥µ–°Õπ¥‘πº—π·ª√µ“¡ª√‘¡“≥πÈ”Ωπ Õ“¬ÿ¢Õßæ◊™ ·≈–™π‘¥¢Õßæ◊™ ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â Ÿß ÿ¥„π∑ÿ°∑√’∑‡¡πµå‡°Á∫‰¥â„π™à«ß«≈“∑’Ëæ◊™Õ“¬ÿπâÕ¬ 79 - 94 «—π ·≈–ª√‘¡“≥Ωπ‡∑à“°—∫ 92.30 ¡¡.‚¥¬æ∫«à“„π·ª≈ߧ«∫§ÿ¡ “¡“√∂‡°Á∫µ–°Õπ¥‘π‰¥â∂÷ß 12.32
°°. ®“°æ◊Èπ∑’Ë·ª≈ß∑¥≈Õß¢π“¥‡æ’¬ß 8 µ√.‡¡µ√ (2 x 4
‡¡µ√) À≈—ß®“°π—Èπ ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â®–≈¥µË”≈߇π◊ËÕß®“°‡√‘Ë¡¡’À≠â“¢÷Èπ§≈ÿ¡∫â“ß·≈–Àπâ“¥‘π≈à“ß®–·¢Áß°«à“°“√™–≈â“ß®÷߇°‘¥‰¥âπâÕ¬°«à“ ‡¡◊ËÕ ‘Èπ ÿ¥°“√∑¥≈Õß æ∫«à“ª√‘¡“≥µ–°Õπ¥‘π – ¡ „π·ª≈ߧ«∫§ÿ¡®– Ÿß∂÷ß 38 °°.„π¢≥–∑’˪√‘¡“≥µ–°Õπ¥‘π∑’Ë ‡°Á∫‰¥â®“°·ª≈ß∑’˪≈Ÿ°∂—Ë«‡æÕ√å√“‡√’¬ µâπ°√–¥ÿ¡∑Õß·≈–À≠â“·Ω°¡’ª√‘¡“≥‡∑à“°—∫12.85 17.18 ·≈– 22.74 °°.µ“¡≈”¥—∫ (Table 5)
®“°°“√∑¥≈Õߪ≈Ÿ°æ◊™‡æ◊ËÕ≈¥°…—¬°“√¢Õߥ‘π„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ‡¡◊ËÕ„™â·ª≈ß∑’ˉ¡à‰¥âª≈Ÿ°æ◊™‡ªìπ·ª≈ߧ«∫§ÿ¡·≈⫇∑’¬∫Õ—µ√“ à«π‡ªìπ‡ªÕ√å‡ Áπµå ¥—ßTable 6 æ∫«à“ ∂—Ë«‡æÕ√å√“‡√’¬¡’§«“¡ “¡“√∂„π°“√≈¥°…—¬°“√¢Õߥ‘π‰¥â∂÷ß 87 % (100 % - 13 %) µâπ°√–¥ÿ¡-
DAP Rainfall
(day) (mm) Bare plot Peuraria Creeping daisy Vetiver grass
79 - 94 92.30 12.32 6.15 4.50 6.3795 - 108 45.00 5.78 2.58 2.88 2.50109 - 122 181.40 6.65 2.15 4.15 5.45123 - 136 114.50 6.45 1.20 2.95 3.85137 - 150 63.00 2.95 0.37 1.35 2.05151 - 169 100.30 3.85 0.40 1.35 2.52
Table 5. Relationship between DAP, rainfall and sediment under different planting methods.
% Sediment
Bare plot Peuraria Creeping daisy Vetiver grass
79 - 94 100 50.38 37.66 53.3795 - 108 100 45.93 51.34 42.69109 - 122 100 31.69 61.34 82.38123 - 136 100 19.07 47.10 59.61137 - 150 100 13.96 60.69 83.85151 - 169 100 13.12 44.84 69.75
Table 6. Percent of sediment under different planting regimes compared to bare plot.
Sediment (kg)
DAP
«. ߢ≈“π§√‘π∑√å «∑∑.
ªï∑’Ë 29 ©∫—∫∑’Ë 1 ¡.§.
-
°.æ. 2550 °“√®—¥°“√·≈–°“√Õπÿ√—°…å¥‘π¿“¬„π ¡.Õ. ‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’
141 ÿ™“µ‘ ‡™‘ß∑Õß
∑Õß “¡“√∂≈¥ª√‘¡“≥µ–°Õπ¥‘π≈߉¥â 55 % à«πÀ≠â“·Ω°≈¥µ–°Õπ¥‘π‰¥âª√–¡“≥ 30% ∑—Èßπ’ȇªìπ°“√‡°Á∫¢âÕ¡Ÿ≈‡©æ“–ªï·√°∑’˪≈Ÿ°æ◊™‡∑à“π—Èπ ”À√—∫ “‡Àµÿ∑’ËÀ≠â“·Ω°·≈–µâπ°√–¥ÿ¡∑Õß¡’§«“¡ “¡“√∂≈¥ª√‘¡“≥µ–°Õπ¥‘π∑’Ë Ÿ≠‡ ’¬‰ª‰¥âπâÕ¬°«à“∂—Ë«‡æÕ√å√“‡√’¬π—Èπ‡π◊ËÕß®“°∂—Ë«‡æÕ√å√“‡√’¬¡’°“√‡µ‘∫‚µ∑’Ë√«¥‡√Á« ¡’„∫„À≠à ·≈–≈”µâπ‡ªìπ·∫∫‡≈◊ÈÕ¬ “¡“√∂ª°§≈ÿ¡æ◊Èπ∑’ˉ¥â√«¥‡√Á« µâπ°√–¥ÿ¡∑Õß¡’§«“¡ “¡“√∂„π°“√‡≈◊ÈÕ¬ ·µà≈”µâπ‡ªìπ·∫∫µ—Èß„™â‡«≈“„π°“√ª°§≈ÿ¡æ◊Èπ∑’Ë¡“°°«à“∂—Ë«‡æÕ√å√“‡√’¬ à«πÀ≠â“·Ω°¡’≈—°…≥–§≈⓬µ–‰§√â·µàµâπ·∫π°«à“µ–‰§√â „∫¬“«µ—Èßµ√ߢ÷Èπ Ÿß ®–‡µ‘∫‚µ‡ªìπæÿà¡·µàµâÕßÕ“»—¬‡«≈“ À≠â“·Ω°∑’Ë„™â‡ªìπÀ≠â“·Ω°ÀÕ¡ “¬æ—π∏ÿå ÿ√“…Æ√å∏“π’ ¡’®ÿ¥‡¥àπ∑’Ë¡’√“°≈÷°·≈–¬÷¥¥‘π‰¥â¥’ ·µàµâÕß√Õ®π¡’Õ“¬ÿ¡“°°«à“ 1 ªï («‘∑Ÿ√,2537)
°“√‡ª√’¬∫‡∑’¬∫∑“ß ∂‘µ‘¢Õߪ√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â®“°·ª≈ß∑¥≈Õß∑’Ë 94 , 108, 122, 136, 150 ·≈–169 «—πÀ≈—ߪ≈Ÿ°‚¥¬„™â·ª≈ß∑’ˉ¡à‰¥âª≈Ÿ°æ◊™ ‡ªìπ·ª≈ߧ«∫-§ÿ¡ (Table 7 ·≈– Figure 1) º≈ª√“°Ø«à“„π™à«ß√–¬–‡«≈“µ—Èß·µà 79 - 94 «—πÀ≈—ߪ≈Ÿ° ·ª≈ß∑¥≈Õß∑’˪≈Ÿ°æ◊™§≈ÿ¡¡’ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥âπâÕ¬°«à“ª√‘¡“≥µ–°Õπ¥‘π„π·ª≈ߧ«∫§ÿ¡Õ¬à“ß¡’π—¬ ”§—≠¬‘Ëß πÕ°®“°π—Èπ∂÷ß·¡â«à“ª√‘¡“≥Ωπ„π™à«ßµàÕ¡“®–µË”‡æ’¬ß45 ¡¡. (Table4) ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â®“°·ª≈ߧ«∫§ÿ¡°Á¬—ß Ÿß°«à“ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â®“°·ª≈ß∑¥≈ÕßÕ◊Ëπ∑’˪≈Ÿ°æ◊™ “¡™π‘¥
Õ¬à“ß¡’π—¬ ”§—≠∑“ß ∂‘µ‘´÷ËߢâÕ¡Ÿ≈π’È· ¥ß„Àâ‡ÀÁπÕ¬à“ß™—¥‡®π«à“ ·¡â·µàΩπ∑’˵°„πª√‘¡“≥πâÕ¬°Á¬—ß¡’§«“¡·µ°µà“ß√–À«à“ߪ√‘¡“≥µ–°Õπ¥‘π®“°·ª≈ß∑’ˉ¡à‰¥âª≈Ÿ°æ◊™‡¡◊ËÕ‡ª√’¬∫‡∑’¬∫°—∫·ª≈ß∑’˪≈Ÿ°æ◊™ Õ¬à“߉√°Áµ“¡ª√‘¡“≥µ–°Õπ¥‘π∑’Ë Ÿ≠ ‡ ’¬®“°·ª≈ßπÕ°®“°®–¢÷Èπ°—∫ª√‘¡“≥Ωπ·≈â« ¬—ߢ÷ÈπÕ¬Ÿà°—∫°“√°√–®“¬µ—«¢ÕßΩπ„π·µà≈–™à«ß‡«≈“¥â«¬ ‡¡◊ËÕµ√«® Õ∫·≈â«æ∫«à“„π«—π∑’Ë 21 µÿ≈“§¡ 2545
¡’Ωπµ°«—¥‰¥âª√‘¡“≥ 35 ¡¡. „π™à«ß‡«≈“ 12 ™—Ë«‚¡ß ‡ªì𠓇Àµÿ„Àâ¡’°“√™–≈â“ßÀπâ“¥‘π‰¥â·¡â«à“ª√‘¡“≥Ωπ„π™à«ßµ—Èß·µà20 µÿ≈“§¡ 2545 ∂÷ß 2 惻®‘°“¬π 2545 (95 -108
«—πÀ≈—ߪ≈Ÿ°) «—¥ª√‘¡“≥Ωπ√«¡‰¥â‡æ’¬ß 45 ¡¡. ”À√—∫„π™à«ß‡«≈“√–À«à“ß 109 -122 «—πÀ≈—ߪ≈Ÿ°
(Table 7) æ∫«à“‰¡à¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘√–À«à“ߪ√‘¡“≥µ–°Õπ¥‘π®“°·ª≈ߧ«∫§ÿ¡°—∫ª√‘¡“≥µ–°Õπ¥‘π®“°·ª≈ß∑’˪≈Ÿ°À≠â“·Ω° ‡¡◊ËÕª√‘¡“≥πÈ”Ωπ„π™à«ß¥—ß°≈à“« Ÿß∂÷ß 181 ¡¡. (Table 4) ·µà‡¡◊ËÕ‡ª√’¬∫‡∑’¬∫ª√‘¡“≥µ–°Õπ¥‘π√–À«à“ß·ª≈ߧ«∫§ÿ¡°—∫·ª≈ß∑’˪≈Ÿ°∂—Ë«‡æÕ√å√“‡√’¬·≈â« æ∫«à“ ¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘Õ¬à“ß¡’π—¬ ”§—≠¬‘Ëß à«πª√‘¡“≥µ–°Õπ¥‘π®“°·ª≈ß∑’˪≈Ÿ°µâπ°√–¥ÿ¡∑Õß¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘∑’Ë√–¥—∫§«“¡‡™◊ËÕ¡—Ëπ 95% ‡¡◊ËÕ‡ª√’¬∫‡∑’¬∫°—∫·ª≈ߧ«∫§ÿ¡ ÷Ëß· ¥ß„Àâ‡ÀÁπ«à“°“√ª≈Ÿ°æ◊™‡™àπ ∂—Ë«‡æÕ√å√“‡√’¬ ·≈–µâπ°√–¥ÿ¡∑Õß “¡“√∂≈¥°“√™–≈â“ßÀπâ“¥‘π‰¥âÕ¬à“ß¡’π—¬ ”§—≠ ¿“¬„µâª√‘¡“≥Ωπ∑’˵°„πæ◊Èπ∑’ˇ¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’
94 108 122 136 150 169
Control 12.32 5.78 6.65 6.45 2.95 3.85Peuraria 6.15 2.58 2.15 1.20 0.37 0.40Creeping daisy 4.50 2.88 4.15 2.95 1.35 1.35Vetiver grass 6.37 2.50 5.45 3.85 2.05 2.52Significant ** * ** * * *LSD
0.053.05 2.18 1.86 2.258 2.447 2.349
LSD0.01
4.62 - 2.82 - - -
** = significant different at 99 % confident interval
* = significant different at 95 % confident interval
Table 7. Sediment at 94 , 108 , 122 , 136 , 150 and 169 DAP.
Treatment DAP (day)
Songklanakarin J. Sci. Technol.
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Soil management and conservation in PSU, Surat Thani Campus
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‡¡◊ËÕ‡ª√’¬∫‡∑’¬∫ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫¿“¬„µâ°“√ª≈Ÿ°æ◊™™π‘¥µà“ßÊ °—∫·ª≈ߧ«∫§ÿ¡ „π™à«ß‡«≈“√–À«à“ß 123
- 136, 137 -150 ·≈– 151-169 «—πÀ≈—ߪ≈Ÿ° æ∫«à“ ¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘Õ¬à“ß¡’π—¬ ”§—≠¢Õߪ√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â√–À«à“ß·ª≈ߧ«∫§ÿ¡°—∫·ª≈ß∑’˪≈Ÿ°∂—Ë«‡æÕ√å√“‡√’¬·≈–·ª≈ß∑’˪≈Ÿ°µâπ°√–¥ÿ¡∑Õß à«π°“√‡ª√’¬∫‡∑’¬∫·ª≈ߧ«∫§ÿ¡°—∫·ª≈ß∑’˪≈Ÿ°À≠â“·Ω°π—Èπ æ∫«à“ „π™à«ß‡«≈“ 123
- 136 «—πÀ≈—ߪ≈Ÿ° ∑’˪√‘¡“≥Ωπ 114.50 ¡¡. (Table 4)
¡’§«“¡·µ°µà“ߢÕߪ√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥âÕ¬à“ß¡’π—¬ ”§—≠ Õ¬à“߉√°Áµ“¡„π Õß™à«ß‡«≈“µàÕ¡“ §◊Õ ∑’Ë√–À«à“ß137 - 150 ·≈– 151- 169 «—πÀ≈—ߪ≈Ÿ° ‰¡àæ∫«à“¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘¢Õߪ√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â®“°·ª≈ߧ«∫§ÿ¡‡ª√’¬∫‡∑’¬∫°—∫ª√‘¡“≥µ–°Õπ¥‘π∑’ˇ°Á∫‰¥â®“°·ª≈ß∑’˪≈Ÿ°À≠â“·Ω° ∑—Èßπ’È “¡“√∂Õ∏‘∫“¬‰¥â«à“„π™à«ß 123 - 136
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2) ¥‘π„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“𒇪ìπ¥‘π∑’Ë¢“¥∏“µÿÕ“À“√À≈—° ”À√—∫°“√‡®√‘≠‡µ‘∫‚µ¢Õßæ◊™„π∑ÿ°æ◊Èπ∑’Ë ”√«® ‚¥¬‡©æ“–¡’ª√‘¡“≥∏“µÿÕ“À“√ N, P ·≈– K µË”¡“° ¬°‡«âπ ∫√‘‡«≥¢â“ßÀÕæ—°π—°»÷°…“·≈–∫√‘‡«≥ «π
Figure 1. Relationship between sediment (kg) and day after planting (day) under
different planting methods (Vertical bars indicate LSD .05)
«. ߢ≈“π§√‘π∑√å «∑∑.
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143 ÿ™“µ‘ ‡™‘ß∑Õß
À√◊Õ·Õ¡‚¡‡π’¬¡´—≈‡øµ ·≈–‡¡◊ËÕæ◊™„Àâ¥Õ°º≈ „Àâ„™âªÿܬ∑’Ë¡’∏“µÿ‚æ·∑ ‡´’¬¡ Ÿß Õπ÷Ëß °“√„Àâªÿܬ·µà≈–§√—Èߧ«√§”π÷ß∂÷ß°“√„Àâªÿܬ∑’Ë¡’∏“µÿÕ“À“√√Õß (Ca, Mg, ·≈– S) ªπÕ¬Ÿà¥â«¬ ”À√—∫ π“¡À≠â“Õ“®„™âªÿܬ 46-0-0 „πÕ—µ√“ 20 °°./‰√à ≈–≈“¬πÈ”·≈â«√¥„Àâ∑—Ë«‡æ◊ËÕ„ÀâÀ≠â“¡’„∫‡¢’¬« «¬ß“¡·µàµâÕß√¥πÈ”µ“¡‡æ◊ËÕ™–≈â“ߪÿܬÕÕ°®“°„∫æ◊™ ¡‘©–π—ÈπÕ“®‡°‘¥ªí≠À“„∫‰À¡â‰¥â ‚¥¬„Àâªÿܬ π“¡À≠â“Õ¬à“ßπâÕ¬ªï≈– 2
§√—Èß ‰¡âº≈·≈–æ◊™¬◊πµâπÕ◊ËπÊ ∑’˪≈Ÿ°‡ªìπ‰¡âª√–¥—∫ ®–¡’ªí≠À“„π°“√‡®√‘≠‡µ‘∫‚µ„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’‰¡à¡“°π—° ‡π◊ËÕß®“°‰¡âº≈·≈–æ◊™¬◊πµâπ¡’√–∫∫√“°≈÷°·≈–·ºà°√–®“¬‡ªìπ«ß°«â“ß ¡’§«“¡ “¡“√∂„π°“√‡ “–À“∏“µÿÕ“À“√„π¥‘π√–¥—∫≈÷°‰¥â Õ¬à“߉√°Áµ“¡‡æ◊ËÕ„À≡âº≈ æ◊™¬◊πµâπ‡™àπ ∑ÿ‡√’¬π ¬“ßæ“√“ „Àâº≈º≈‘µ¥’¡’§ÿ≥¿“æ ¡’§«“¡®”‡ªìπµâÕß„™âªÿܬ‡§¡’ ªÿܬՑπ∑√’¬å À√◊ÕªÿܬÀ¡—°‡æ‘Ë¡‡µ‘¡‡π◊ËÕß®“° º≈°“√«‘‡§√“–À契π™’È™—¥«à“¥‘π„π‡¢µ°“√»÷°…“- ÿ√“…Æ√å∏“π’ ¢“¥∏“µÿÕ“À“√∑’Ë®”‡ªìπ ”À√—∫æ◊™ ”À√—∫Õ—µ√“∑’Ë„™â„Àâ„™âÕ—µ√“·π–π” ”À√—∫∑ÿ‡√’¬π·≈–¬“ßæ“√“´÷ËߢâÕ¡Ÿ≈¥â“π°“√„Àâªÿܬæ◊™ Õß™π‘¥π’ȇº¬·æ√à∑—Ë«‰ª
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°Õß ”√«®·≈–®”·π°¥‘π. 2530. √“¬ß“π°“√ ”√«®¥‘π ®—ßÀ«—¥ ÿ√“…Æ√å∏“π’.©. 466 °√¡æ—≤π“∑’Ë¥‘π °√–∑√«ß‡°…µ√·≈– À°√≥å.
‡°√’¬ß»—°¥‘Ï À߅債. 2537. æ◊Èπ∑’˵—«Õ¬à“ß∑’Ë¡’°“√„™â√–∫∫À≠â“·Ω°»Ÿπ¬å»÷°…“°“√æ—≤π“‡¢“À‘π´âÕπ. „π§Ÿà¡◊Õ°“√¥”‡π‘πß“π‡°’Ë¬«°—∫À≠â“·Ω°. °√¡æ—≤π“∑’Ë¥‘π °√–∑√«ß‡°…µ√·≈– À°√≥å. Àπâ“ 61-64.
π«≈»√’ °“≠®π°Ÿ≈, ÿ«√√≥’¬å ¿Ÿ∏√∏√“™ ·≈– ¢π‘…∞»√’ Œÿàπµ√–°Ÿ≈.2543. √–¥—∫§«“¡Õÿ¥¡ ¡∫Ÿ√≥å¢Õߥ‘π„πª√–‡∑»‰∑¬.‡Õ° “√«‘™“°“√. °Õß«‘‡§√“–À契π °√¡æ—≤π“∑’Ë¥‘π.
∫ÿ≠Àß å ®ß§‘¥. 2542. °“√«‘‡§√“–À契π‡æ◊ËÕ°”Àπ¥·π«∑“ߪ√—∫ª√ÿߥ‘π„Àâ‡À¡“–·°à°“√ª≈Ÿ°µâπ‰¡â„π∫√‘‡«≥ ¡À“«‘∑¬“-≈—¬ ∏√√¡»“ µ√å »Ÿπ¬å√—ß ‘µ.«.«∑∑.¡.∏√√¡»“ µ√å 1:11-
21.
∑ÿ‡√’¬π∑’Ë¡’ª√‘¡“≥∏“µÿøÕ øÕ√— „πª√‘¡“≥∑’ˇ撬ßæÕ‡©æ“–„π¥‘π∫π (0 - 30 ´¡.) ”À√—∫ª√‘¡“≥∏“µÿÕ“À“√√Õß (Ca ,Mg ·≈– S) π—Èπ °Áæ∫«à“¥‘π‡°◊Õ∫∑ÿ°æ◊Èπ∑’Ë∑’Ë ”√«®¡’ª√‘¡“≥∏“µÿÕ“À“√√Õߵ˔°«à“√–¥—∫¡“µ√∞“π¬°‡«â𠥑π∫√‘‡«≥¢â“ßÀÕæ—°π—°»÷°…“∑’Ë¡’ª√‘¡“≥∏“µÿÕ“À“√√Õß Ÿß°«à“∑’˵”·ÀπàßÕ◊Ëπ ∑—Èßπ’ÈÕ“®‡ªìπ‡æ√“–æ◊Èπ∑’Ë∫√‘‡«≥π—Èπ¡’æ◊™µ√–°Ÿ≈∂—Ë«¢÷Èπª°§≈ÿ¡Õ¬Ÿà∑—Ë«∑—Èß∫√‘‡«≥πÕ°®“°π’È¥‘π„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ¬—ß¡’ª√‘¡“≥Õ‘π∑√’¬«—µ∂ÿ “√·≈–Õ‘π∑√’¬å§“√å∫Õπ∑’˵˔ ®–¡’º≈‡°’ˬ«°—∫ª√‘¡“≥Õ“À“√¢Õß®ÿ≈‘π∑√’¬å¥‘πµË”‰ª¥â«¬ πÕ°®“°π—Èπ §◊Õ°“√·≈°‡ª≈’Ë¬π·§µ‰ÕÕÕπ¡’§à“µË” ∑”„Àâ¥‘π¡’ª√‘¡“≥∏“µÿÕ“À“√∑’ˇªìπª√–‚¬™πåµàÕæ◊™µË” ·≈–∏“µÿÕ“À“√æ◊™®–∂Ÿ°™–≈â“ßÕÕ°‰ª®“°¥‘π®–‡ªìπ‰ª‚¥¬ßà“¬
3) °“√ª≈Ÿ°æ◊™‡æ◊ËÕÕπÿ√—°…契ππ—Èπ ‡¡◊ËÕ∑¥≈Õߪ≈Ÿ°æ◊™‚¥¬‰¡à¡’°“√„Àâªÿܬ πÈ” ·≈–‰¡à¡’°“√∫”√ÿß√—°…“„¥Ê °“√ª≈Ÿ°æ◊™∂—Ë«‡æÕ√å√“‡√’¬ “¡“√∂≈¥°“√™–≈â“ßÀπâ“¥‘π‰¥â¥’∑’Ë ÿ¥ ‚¥¬¡’µâπ°√–¥ÿ¡∑Õß≈¥°“√™–≈â“ßÀπâ“¥‘π‰¥â¥’√Õß≈ß¡“ ”À√—∫À≠â“·Ω°π—Èπ„Àâº≈‰¡à¥’π—°‡°◊Õ∫®–‰¡à·µ°µà“ß®“°°“√ª≈àÕ¬„Àâ¡’À≠â“¢÷Èπ‡Õßµ“¡∏√√¡™“µ‘ ∑—Èßπ’ȇπ◊ËÕß®“°„π™à«ß·√°¢Õß°“√‡µ‘∫‚µ À≠â“·Ω°®–·µ°°Õ™â“‚¥¬‡©æ“–‡¡◊ËÕª≈Ÿ°„π¥‘π„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ ÷Ëß®–·Àâß·≈–·¢Áßµ—«‡¡◊ËÕ¢“¥πÈ”‡æ’¬ß 1-2 «—π
4) °“√®—¥°“√æ◊™æ√√≥¿“¬„π‡¢µ°“√»÷°…“ ÿ√“…Æ√å∏“π’ °“√∑’Ë®–ª≈Ÿ°æ◊™≈â¡≈ÿ° π“¡À≠â“ À√◊Õ‰¡â¥Õ°‰¡âª√–¥—∫ §«√∑”°“√ª√—∫ª√ÿߥ‘π‚¥¬°“√„ àªÿܬ§Õ°„πÕ—µ√“1.5 ∂÷ß 2 µ—π/‰√à ‡æ◊ËÕ‡æ‘Ë¡Õ‘π∑√’¬«—µ∂ÿ·≈–Õ‘π∑√’¬å§“√å∫Õπ„Àⷰ॑π πÕ°®“°π’ÈÕ‘π∑√’¬«—µ∂ÿ¬—߇ªìπ·À≈àßæ≈—ßß“π¢Õß®ÿ≈‘π∑√’¬å¥‘π ™à«¬‡æ‘Ë¡¢π“¥¢Õ߇¡Á¥¥‘π∑”„À⇡Á¥¥‘π‰¡à·µ°ßà“¬ ™à«¬§≈ÿ¡¥‘π ≈¥°“√‰À≈∫à“¢ÕßπÈ”·≈–°“√°√àÕπ¢Õߥ‘π‰¥â ªÿܬ§Õ°¡’∏“µÿÕ“À“√ N Õ¬Ÿà√–À«à“ß 1-
4 %¡’øÕ ‡øµ (P2O5) Õ¬Ÿà√–À«à“ß 0.5-2 % ¬°‡«âπ¡Ÿ≈§â“ߧ“«∑’Ë¡’øÕ ‡øµ (P2O5) Ÿßª√–¡“≥ 15 % à«π∏“µÿ‚æ·∑ ‡´’¬¡ (K2O) ¡’§à“√–À«à“ß 0.7-1.85 % πÕ°®“°π’ȧ«√¡’°“√„ àªÿܬ‡§¡’‡æ◊ËÕ„Àâ∏“µÿÕ“À“√À≈—° §◊Õ‰π‚µ√‡®πøÕ øÕ√— ·≈–‚æ·∑ ‡´’¬¡·°àæ◊™¥â«¬ ‚¥¬„™âÕ—µ√“∑’Ë·π–π” ”À√—∫æ◊™·µà≈–™π‘¥ ∂â“æ◊™™π‘¥„¥‰¡à¡’Õ—µ√“·π–π” ”À√—∫°“√„™âªÿܬ∑’Ë„Àâ∑—Èß∏“µÿ N, P ·≈– K Õ“®„™âªÿܬ Ÿµ√‡ ¡Õ §◊Õ 15 : 15 : 15 „πÕ—µ√“ 40-50 °°./‰√à °àÕπª≈Ÿ° ‡¡◊ËÕæ◊™‚µ¢÷Èπ®÷ß„™âªÿܬ∑’Ë¡’∏“µÿ‰π‚µ√‡®π Ÿß ‡™àπ ¬Ÿ‡√’¬
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Soil management and conservation in PSU, Surat Thani Campus
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”π—°ß“π§≥–°√√¡°“√摇»…‡æ◊ËÕª√– “πß“π‚§√ß°“√Õ—π‡π◊ËÕß¡“®“°æ√–√“™¥”√‘. 2537.ª√–¡«≈æ√–√“™¥”√‘‡°’ˬ«°—∫°“√Õπÿ√—°…契π·≈–πÈ”‚¥¬°“√ª≈Ÿ°À≠â“·Ω°. „π:§Ÿà¡◊Õ°“√¥”‡π‘πß“π‡°’Ë¬«°—∫À≠â“·Ω°. °√¡æ—≤π“∑’Ë¥‘π °√–∑√«ß‡°…µ√·≈– À°√≥å. Àπâ“ 1-7.
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º—ß·¡à∫∑«‘∑¬“‡¢µ ÿ√“…Æ√å∏“π’ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å.(‰¡à√–∫ÿªï æ.».) §≥–ºŸâ»÷°…“‡æ◊ËÕ«“ߺ—ß·¡à∫∑ «‘∑¬“‡¢µ- ÿ√“…Æ√å∏“π’·≈–Àâ“ßÀÿâπ à«π®”°—¥ ∂“ªπ‘° ‡Õ ·Õπ¥å‡ÕÁπ.
¡ß§≈ «√√≥ª√–‡ √‘∞ ·≈– Õÿ∑—¬ ∑Õß¡’. 2536. °“√ Ÿ≠‡ ’¬¥‘π·≈–πÈ”®“°·ª≈ß∑’Ë¡’°“√„™âª√–‚¬™πå∑’Ë¥‘π∑’˵à“ß°—π.«.«π»“ µ√å 12: 07 - 117.
¡À√√≥πæ «ß»å «— ¥‘Ï. 2542.‡§≈Á¥≈—∫«‘™“°“√æ‘™‘µ°≈ÿà¡™ÿ¥¥‘π·¥π –µÕ.«.æ—≤π“∑’Ë¥‘π 36 (373): 52-63.
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∂“π’Õÿµÿπ‘¬¡«‘∑¬“ ÿ√“…Æ√å∏“π’. 2549. ¢âÕ¡Ÿ≈ ∂‘µ‘≈—°…≥–≈¡øÑ“Õ“°“»·≈– “√ª√–°Õ∫Õÿµÿπ‘¬¡«‘∑¬“√“¬‡¥◊Õπ ª√–®”ª’ 2525-2545. Available source: http://mem-
bers.thai.net/weather/ [July 3, 2006]
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